changing the lock position on windows. ⢠providing ... houses and the department Standards for overall utility consump
Centre for Urban Research
Horsham Catalyst
Research and Evaluation Final Report Dr Trivess Moore Dr Yolande Strenger Dr Cecily Maller Dr Ian Ridley Dr Larissa Nicholls and Professor Ralph Horne
1 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
Final Report:
Horsham Catalyst Research and Evaluation Version 1.10 December 2015 Authored by: Dr Trivess Moore, Dr Yolande Strengers, Dr Cecily Maller, Dr Ian Ridley, Dr Larissa Nicholls and Professor Ralph Horne Copyright © The State of Victoria. Reproduced with the permission of the State of Victoria. Unauthorised reproduction or other uses comprised in the copyright are not permitted. Research commissioned by the Department of Health and Human Services, Victorian State Government. Published by: Centre for Urban Research (CUR) RMIT University | City campus Building 15, Level 4 124 La Trobe Street Melbourne VIC 3000 ww.cur.org.au @RMIT_CUR facebook.com/rmitcur Layout and design: Adrianne Walujo and Chanel Bearder
ISBN: 978-0-9941890-6-6
2 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
Horsham Catalyst Research and Evaluation Final Report
About the Authors
Acknowledgements
Dr Trivess Moore is a Research Fellow at RMIT University working in the School of Global, Urban and Social Studies and the School of Property, Construction and Project Management.
The authors acknowledge the assistance of Shae Hunter during the round two interviews. We are grateful for the assistance and data provided by Ian Adams of Organica Engineering, recruitment assistance provided by the Department of Health and Human Services’ regional office, and insights offered by Department of Health and Human Services staff, in particular the department’s project leaders Becky Sharpe and Daniel Voronoff. The authors also thank all the research participants (stakeholders and tenants) who generously gave their time and insights to this project.
Dr Yolande Strengers is a Senior Research Fellow in the Centre for Urban Research, where she co-leads the Beyond Behaviour Change research program. Dr Cecily Maller is a Vice Chancellor’s Senior Research Fellow in RMIT’s Centre for Urban Research. Dr Ian Ridley is an Associate Professor at RMIT University’s School of Property, Construction and Project Management. Dr Larissa Nicholls is a research fellow in RMIT’s Centre for Urban Research. Ralph Horne is the Deputy Pro Vice-Chancellor, Research and Innovation for the College of Design and Social Context at RMIT University and Director of the Cities Programme, the urban arm of the United Nations Global Compact Programme.
Suggested Citation Moore, T., Strengers, Y., Maller, C., Ridley, I., Horne, R., 2016: Horsham Catalyst Research and Evaluation Final Report. A Research Report Prepared for the Department of Health and Human Services, Victoria State Government. Melbourne: RMIT University.
3 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
The department wishes to thank the public housing tenants and industry stakeholders for their time over the three year research period. We also acknowledge the architect of the Catalyst houses, HKB and AUSARC Architects (particularly Ernest Kollegger), and the builder, JG King Homes. We thank the research authors for the depth and breadth of this work, and feel it makes important contribution to this emerging field of mixed method research.
Preface The Department of Health and Human Services
The department is pleased to present this pioneering
(DHHS) aims to provide homes across Victoria that
research, the Horsham Catalyst Research and
better meet the changing needs of our clients, as well
Evaluation– Final Report, based on a three-year
as managing our extensive property portfolio in a more
evaluation of these homes in Horsham, a region noted
sustainable way.
for its climate extremes.
An increasingly sustainable approach means paying
For this study between April 2013 and October
close attention to the social and environmental
2015, the RMIT University Beyond Behaviour Change
outcomes that result from the way our properties are
research team interviewed Horsham householders in
designed, built and lived in.
both the sustainable new units as well as recently-built ‘standard’ DHHS units.
Through projects such as the K2 apartments at Windsor and Carlton estates redevelopment, DHHS
The research team used typical cost-benefit analysis
has shown its commitment to, and interest in, the
as well as non-traditional / life cycle methodology.
benefits of environmentally sustainable design in public
The latter reveals financial and resource impacts
housing dwellings.
over the project’s life, rather than a simple focus on construction costs. This is a significant viewpoint in the
A number of Victorian Government strategies and
context of public housing provision, when dwellings
policies drive DHHS to show leadership through
are commonly built, owned and managed by the
integrating sustainable design. The department’s
department and house vulnerable people.
environment policy ‘recognises that disadvantaged and vulnerable groups are more likely to be affected by
This report joins an emerging body of research
the negative effects of climate change’. The building
into Australian sustainable, affordable housing
project in Horsham, north-west Victoria, known as the
developments. By documenting health, comfort,
Horsham Catalyst, demonstrates our quest to gain
household finance and individual wellbeing impacts,
insights and experience in this field.
the positive lessons here are relevant to government and housing organisations mandated to improve the
The Horsham buildings comprised four newly-built two-bedroom, single-storey units. The project set out to investigate what would result when leadership-level sustainability elements were added in lower-density public housing. We sought to identify what benefits could flow to our clients, and which sustainability elements delivered the best social, financial and environmental value.
4 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
circumstances of low-income people.
Contents Preface
4
List of figures
8
List of tables
11
Key Definitions
13
Architectural Drawings
14
Executive summary
16
1 Introduction
26
1.1
Project description, aim and scope
26
1.2
Key performance indicators
28
1.3
Project methods
29
1.4
Structure of the report
39
2 Literature review
42
2.1
Transitioning to a low-carbon future
42
2.2
Value of good design
43
2.3
Sustainable housing
44
2.4
Costs and benefits of sustainable housing
45
3 Interviews with households
47
3.1
KPI 1: Decreased relative utility bills
47
3.2
KPI 2: Improved financial circumstance
51
3.3
KPI 3: Improved level of thermal comfort
53
3.4 KPI 4: Reduced reported level of discomfort on extreme weather days
5 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
55
3.5
KPI 5: Improved occupant health and wellbeing
60
3.6
KPI 6: Improved utility and mobility
63
3.7
KPI 7: Improved tenant engagement and experience in managing
69
ESD and climate change-related aspects
3.8
KPI 8: Improved neighbourhood satisfaction and safety
74
3.9
KPI 9: Improved life circumstances
76
3.10
KPI 10: Improved relationship with the department
78
3.11
Household summary
80
4 Evaluation of home advisory tour
84
5 Interviews with stakeholders
85
85
5.1 Stakeholders
5.2 KPI 11: Increased engagement with building and development industry sector
85
5.3
KPI 12: Improved business practices
88
5.4
KPI 13: Improved process and governance (stakeholder perspective)
88
5.5 KPI 14: Improved benefits across all actors from increased ESD (stakeholder 89 perspective) Stakeholder summary
91
6 Housing performance and cost-benefit analysis
93
6.1
Data collected
93
6.2
Utility performance
94
6.3
Thermal performance
102
6.4
Blower door performance
106
5.6
6 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
6.5
Cost-benefit analysis
108
6.6
Environmental performance
118
7 Summary of research findings
124
7.1
Household interviews
124
7.2
Stakeholder interviews
125
7.3
Housing performance and cost-benefit analysis
125
7.4
Home advisory tours
126
7.5 Implications
126
8 Recommendations
129
9 Appendix 1 – Semi-structured household interview questions (round 1)
131
10 Appendix 2 – Semi-structured stakeholder interview questions (round 1)
133
11 Appendix 3 – Advisor guide for home tour
136
12 Bibliography
139
7 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
List of Figures Figure 1: One of the Catalyst houses in 2012 (source: Trivess Moore) Figure 2: One of the shared rainwater tanks at the Catalyst houses (source: Trivess Moore) Figure 3: One of the Control houses from the research project (source: Trivess Moore) Figure 4: Temperature in the living rooms of monitored houses and external temperature for January 2013. Code: External = External temperature, CAT = Catalyst houses A–D, Con = Control houses D–F Figure 5: Accumulated costs for various sustainability elements within the Catalyst houses across time for a low energy price future Figure 6: ConA2’s garden development in September 2015 (source: Trivess Moore) Figure 7: Average annual electricity consumption and adjustments for solar energy for all dwellings in comparison to the SIP and the department Standards Figure 8: Average annual electricity consumption and adjustments for solar energy for all dwellings/persons in comparison to the SIP and the department Standards Figure 9: Average annual gas consumption for all dwellings in comparison to the SIP and the department Standards Figure 10: Average annual gas consumption for all dwellings/persons in comparison to the SIP and the department Standards Figure 11: Average annual electricity and gas consumption for all dwellings in comparison to the SIP and the department Standards Figure 12: Average annual electricity and gas consumption for all dwellings/persons in comparison to the SIP and the department Standards
8 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
Figure 13: Average annual energy consumption for all dwellings in comparison to the SIP and the department Standards Figure 14: Average annual energy consumption for all dwellings/persons in comparison to the SIP and the department Standards Figure 15: Average annual water consumption for all dwellings in comparison to the SIP and the department Standards Figure 16: Average annual water consumption for all dwellings/persons in comparison to the SIP and the department Standards Figure 17: Example of adaptive comfort measurements undertaken in analysis for the periods October 2012 – March 2013 and October 2013 – March 2014 Figure 18: Temperature in the living rooms of monitored houses and external temperature for 18–19 January 2013 Figure 19: Blower door test once set up (source: Trivess Moore) Figure 20: Comparison of additional capital costs to achieve a low or zero energy house from a range of projects and research Figure 21: Accumulated costs for each dwelling in the research across time for a low energy price future Figure 22: Accumulated costs for each dwelling in the research across time for a high energy price future Figure 23: Accumulated costs for each household (without the department capital and maintenance and replacement costs) in the research across time for a low energy price future
9 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
Figure 24: Accumulated costs for each household (without the department capital and maintenance and replacement costs) in the research across time for a high energy price future Figure 25: Accumulated costs for various sustainability elements within the Catalyst houses across time for a low energy price future Figure 26: Accumulated costs for various sustainability elements within the Catalyst houses across time for a high energy price future Figure 27: Environmental performance of dwellings in comparison to the SIP and the department Standards Figure 28: Environmental performance per number of occupants of dwellings in comparison to the SIP and the department Standards Figure 29: Contribution of gas and electricity to annual CO2e from Catalyst houses (source: Ian Adams – Organica Engineering) Figure 30: Contribution of gas and individual elements of electricity (including negative solar contribution) to annual CO2e from Catalyst houses (source: Ian Adams – Organica Engineering) Figure 31: Organica Engineering’s initial environmental performance predictions of Catalyst house performance (across all four) compared with actual performance (source: Ian Adams – Organica Engineering) Figure 32: Contribution of gas and electricity to annual CO2e from Control houses (source: Ian Adams – Organica Engineering and RMIT University) Figure 33: Contribution of gas and individual elements of electricity to annual CO2e from Catalyst houses (source: Ian Adams – Organica Engineering and RMIT University) Figure 34: Car equivalent of environmental performance
10 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
List of Tables Table 1: Key deliverables and timeline for the project Table 2: Characteristics of each household and house Table 3: Household participation in interviews Table 4: Stakeholder participation in interviews Table 5: Summary of data sources used for CBA assumptions Table 6: Cost for sustainability elements of each Catalyst house Table 7: Summary of household findings against project KPIs across each round of interviews Table 8: Stakeholders interviewed as part of the project Table 9: Summary of stakeholder KPIs and if they were addressed Table 10: Monitored or collected (utility bill) data available for each year and utility Table 11: Summary of average annual utilities consumed/generated from each dwelling Table 12: Summary of measured performance from both groups of houses – summer data Table 13: Measured performance from the living areas of each dwelling – summer data Table 14: Results from the blower door test Table 15: Additional upfront costs per Catalyst house compared to a standard department house Table 16: Through-life maintenance costs per Catalyst house compared to a standard department house Table 17: Technology replacement costs
11 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
Table 18: Upfront and through-life operational costs after five and 40 years for a low and high energy price future Table 19: Summary of additional costs to the department Table 20: Net present value analysis of Catalyst houses after five and 40 years
12 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
Key Definitions Catalyst houses – Four sustainable houses built by the
NatHERS – National House Energy Rating Scheme, the
department in Horsham, Victoria, and which are the
Scheme that sets thermal performance requirements
focus of this research.
for residential buildings. Rated on a scale of 0 (worst) – 10 (best) stars.
Control houses – Seven houses built to the department’s minimum building requirements
Passive solar – A design technique which uses the sun
(Department Standard). These units were compared
to naturally heat and cool a building or space.
with the performance of the Catalyst houses in the research.
Reverse brick veneer – A building technique where the bricks are on the inside and the cladding is on the
Cost-benefit analysis (CBA) – A systematic approach
outside.
to evaluating and comparing the upfront and through life costs and benefits of different aspects. The
Standard Industry Practice (SIP) – A model of
analysis turns inputs and outputs into a common
building performance and demand developed for the
metric to allow comparison. Typically, this metric is
department by Organica Engineering to represent
expressed as value in present day dollar amounts.
new residential building performance across Victoria.
Increasingly CBA is attempting to include elements
The SIP was created from regulation requirements,
which have traditionally not been considered due to
common industry practices and evidence of residential
difficulties placing an economic value on them (e.g. the
utility demand.
environment) to provide a more holistic analysis. Stars – The NatHERS rating outcome, e.g. 9 Stars. Department standard – The standard set by the department for all new detached residential
The department – The Department of Health and
construction. This goes beyond the minimum NatHERS
Human Services Victoria.
requirement.
13 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
Architectural Drawings
PLAN OF ONE UNIT
14 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
15 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
Executive Summary This Horsham Catalyst Research and Evaluation – Final
•
a blower door test of dwellings (see Section 6)
Report presents outcomes from a three-year mixed-
•
household home advisory tours conducted by a sustainability expert (see Section 4)
method evaluation of the Department of Health and Human Services’ (herein the department) low-carbon
•
the delivery of three key resources for the
housing in Horsham, Victoria. The aim of the project
department to utilise in future projects, making
was to conduct a multi-year evaluation of four new
future research more affordable. These were a
two-bedroom, single-storey, sustainably designed
literature review (see Section 2), interview guides
units with a National House Energy Rating Scheme
(see Appendix 1 and Appendix 2) and a CBA
(NatHERS) rating of 8.9 stars (Catalyst houses, see
model.
Figure 1), in addition to seven one- and two-bedroom Control dwellings (located in Horsham). All dwellings
Catalyst houses
were evaluated across a range of economic, social
The Catalyst houses utilised a number of sustainable
and environmental key performance indicators (KPIs)
housing (Ecologically Sustainable Development – ESD)
determined by the Department of Health and Human
principles to achieve an 8.9-star NatHERS rating
Services and revised by the RMIT University research
including:
team.
•
passive solar design
•
optimum orientation
The research was conducted by the Beyond Behaviour
•
advanced roof design
Change Research Program within the Centre for Urban
•
improved levels of ceiling, wall and floor insulation
Research at RMIT University (RMIT research team)
•
external window shading
between April 2013 and October 2015. The evaluation
•
access to natural ventilation
included research with households living in the Catalyst
•
increased thermal mass
dwellings and seven Control dwellings, as well as key
•
reverse brick veneer construction on back section
stakeholders involved in the design, construction and
of dwellings (bricks on the inside, cladding on the
occupation of the Catalyst houses. A comparative
outside)
cost-benefit analysis (CBA) was also undertaken of the
•
improved glazing.
Catalyst and Control houses. The Catalyst households also had access to shared Specifically, the methods comprised:
5,000-litre rainwater tanks plumbed into the houses,
•
three separate rounds of in-home interviews with
individual 1.5 kW solar photovoltaics (PV) systems and
households across three years (see Section 3)
solar hot water systems (gas boosted) to achieve their
two rounds of interviews with key stakeholders
low-carbon, sustainable outcome.
•
(years one and three) (see Section 5) •
a housing performance and CBA (see Section 6)
16 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
Figure 1: One of the Catalyst houses in 2012 (source: Trivess Moore).
Control houses The Control houses were built to the department
The additional capital cost for the ESD elements of
Standards requirement (the department Construction
the Catalyst houses compared to the department
Standards (2011) for new build, low-density housing
Standards was $75,700 per dwelling. When additional
– herein referred to as the department Standards),
maintenance and technology replacement costs
a six-star NatHERS rating and included solar hot
across a 40-year period are included, this results in a
water. In addition to the department Standards
total additional cost per dwelling to the department of
requirements, the Control houses also included various
$141,700.
sized rainwater tanks. These department Standards requirements were used by Organica Engineering to develop a department standard performance scenario assuming a two-person ‘average’ occupancy for a two-bedroom, new low-density dwelling with solar hot water but no other additional ESD technologies. This scenario was applied as a baseline for utility
Catalyst household interview findings Overall the research undertaken for the evaluation found that Catalyst households: •
did in their previous dwellings •
this evaluation were all located in Horsham, nearby to the location of the Catalyst houses.
were able to pay these bills more easily with reduced stress associated with utility usage and
consumption for comparison to the 11 case study dwellings. The department Standards houses used in
had lower utility consumption and bills than they
payments •
had savings available to spend on things that improved their quality of life that they used to struggle to afford, such as going on a holiday or buying clothes
17 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
•
experienced an improvement in their thermal
•
dimmable lights in some areas
comfort and health during extreme weather (without requiring air conditioning), translating to
•
demonstrated overall improvement in life
•
gap reduction around internal doors
circumstances, life satisfaction and wellbeing,
•
improving water tank access (individual water tanks)
including one household removing themselves from all CentreLink payments •
improving ceiling fan placement in bathrooms (place above shower)
fewer reported trips to the doctor or hospital •
improving lighting in parts of the house, including
•
to residents only)
experienced improved neighbourhood satisfaction, perceptions of neighbourhood safety and
improving driveway layout (restrict access for cars
•
fixing cracked tiles (grouting), cracks in concrete and cracks in internal and external walls
relationships with the department regional office. •
providing native grass and plants in the backyard
While all Catalyst households were highly satisfied
•
changing the lock position on windows
with their houses, there were some suggestions for
•
providing shade covering for the pergola.
improvement, including: •
placing ceiling fans in bedrooms and an easier way to reverse fan direction
Figure 2: One of the shared rainwater tanks at the Catalyst houses (source: Trivess Moore).
18 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
Control household interview findings
•
more neighbourhood amenity and safety concerns
Control households experienced limited improvements
(in one cluster of three households that lived on
in comparison to their previous dwellings. Broadly,
the same street) minimal improvements in their life
Control households reported:
circumstances
•
more issues paying utility bills on time (including two households that needed prepayment plans)
•
•
lower or similar satisfaction with their relationship with the department regional office.
lower satisfaction with thermal comfort and an over-reliance on mechanical cooling to stay cool
The research found a clear relationship between
in summer (which in turn impacted on electricity
Catalyst housing and improved financial, health, social
usage and costs)
and wellbeing outcomes for Catalyst households.
Figure 3: One of the Control houses from the research project (source: Trivess Moore).
19 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
Stakeholder interview findings The tradespeople who were interviewed for the
environmental impact from power use compared
project were satisfied with it and thought it worked
to the department Standards, and 40 per cent
well overall. However, they also reported no increase
less CO2 environmental impact from power use
in ESD work because of their involvement in the
compared to the Control houses.
project. The stakeholders identified key lessons from
•
The Catalyst houses were comfortable 10 per cent
the development including the need to reduce delays
more of the time for the living areas and seven per
between design and starting construction, which
cent more of the time for the bedrooms compared
impacted on material and technology choices, which
to the Control houses (according to the European
became quickly outdated in this rapidly changing area.
adaptive thermal comfort standard).
There were also a high number of variances made to
•
The Catalyst houses were substantially more
the design and construction of the Catalyst houses
comfortable during extreme weather events
after the contract had been signed, which added time
(according to the European adaptive thermal
and costs to the project.
comfort standard). For example, on the second consecutive day of temperatures above 41oC,
Cost-benefit analysis findings
the difference between the hottest Control house
In terms of the monitored analysis, overall the Catalyst
(which had air conditioning) and coolest Catalyst
houses performed substantially better than the Control
house was 16.6oC (without air conditioning) (see
houses and the department Standards for overall utility
Figure 4).
consumption, environmental performance and thermal
•
The same ESD performance and outcome of the
comfort. However, financial payback (of capital and
Catalyst houses could have been achieved in 2011
through-life operation, maintenance and technology
for half the additional capital cost for ESD elements
replacement costs) through a traditional CBA was
as evidenced in other low-carbon, sustainable
problematic within 40 years.
housing projects in Australia and internationally. •
Only two of the Catalyst households will achieve
Specifically:
a payback within 40 years at a high energy price
•
Catalyst households purchased 62 per cent less
future (and none at a low energy price future) using
electricity compared to the department Standards
a traditional CBA approach.
and 45 per cent less electricity compared to the •
•
However, if the Catalyst houses were to be sold
Control households.
they could achieve an additional resale value of
Catalyst households purchased three per cent
between $15,000 – $40,000, depending on the
less gas compared to the department Standards
age of the sustainability technologies and current
and 15 per cent less gas compared to the Control
price of utilities.
households. •
•
•
When analysing the individual sustainability
Catalyst households consumed 28 per cent less
elements, the most cost-effective option in the
water compared to the department Standards and
Catalyst houses was the inclusion of solar panels,
22 per cent less water compared to the Control
followed by the rainwater tank plumbed into the
households.
house, with the building envelope improvement the
Catalyst houses had 50 per cent less CO2
least cost-effective element (see Figure 5).
20 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
Figure 4: Temperature in the living rooms of monitored houses and external temperature for 18–19 January 2013.
Figure 5: Accumulated costs for various sustainability elements within the Catalyst houses across time for a low energy price future. 21 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
Key implications Across the evaluation indicators and metrics
that some Catalyst tenants were more willing or able
the Catalyst houses and households performed
to undertake the actions required to operate their
significantly better than the Control houses and
dwellings as designed, while others were unable to
households, including against the department
or decided not to follow ESD processes. This can
Standards. Catalyst houses and households had
impact on the overall benefits to the tenants, the
improved environmental performance, used less
department and the environment, and prompts the
energy, had lower operating costs resulting in
question about how much of the design should be
additional savings to be spent on non-essential
passive and not rely on tenants to direct outcomes
activities and items, and had improved thermal comfort
and performance. Importantly, there is no simple
(especially in extreme weather conditions) without
division between ‘design’ and ‘behaviour’ that can be
the requirement of an air conditioner. Tenants’ overall
drawn here. Tenants engaged with their dwellings and
life circumstances and wellbeing also reportedly
its technologies in a range of ways (predictable and
improved. If the Catalyst housing design was replicated
unpredictable) that both supported and undermined
more widely across the department and general
the sustainability objectives.
housing stock, there could be significant broader environmental, economic and social benefits.
The research highlights the question of trade-offs and overall objectives. For example, if capital cost efficiency
However, the reported benefits are offset against the
is important, a future development could be built to
higher initial capital costs of the Catalyst houses. The
a slightly lower star rating (for instance, eight star)
research found that the additional capital costs for the
but include more solar panels, thus reducing living
sustainability elements of the Catalyst houses could
costs for tenants even further. However, reducing the
be significantly less (at least 50 per cent less) if the
thermal performance of the dwelling negates some
development is repeated due to cost efficiencies in
of the tenant health and thermal comfort benefits
the design, materials and technologies. Economies of
both across the year and in extreme weather events.
scale could also reduce these costs further if a larger
Further, an eight-star house would likely require some
development was constructed. This would significantly
form of air conditioning, whereas the Catalyst houses
affect the issues of payback periods and make the
demonstrated that at nine stars, air conditioning can
development a more financially viable option.
for the most part be avoided.
Furthermore, there is a challenge regarding how much
Even more than three years post construction the
active engagement can reasonably be expected from
Catalyst houses can still be regarded as one of
tenants in order to maximise ESD outcomes. For
Australia’s leading sustainable housing developments.
example, the inclusion of solar PV does not require the
There has been the emergence of some other nine-
tenant to do anything to receive the benefit; whereas
and now 10-star developments, but this is still the
the requirement to reverse the ceiling fan direction
exception with the majority of new construction being
and open the celestial windows to vent warm air
built in the six- to seven-star range. Additionally, there
does need tenant involvement. The analysis found
are few other examples of such low carbon, energy
22 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
and sustainable housing being developed by housing
Design and construction
agencies such as the department, either in Australia or
1. The department Standards can be improved to
internationally.
benefit tenants and the environment using low-risk construction methods and technologies.
The evaluation demonstrated the benefits of monitoring
2. In the social housing context, best value for money
and analysing real performance and occupancy data
is achieved with an eight-star building envelope
from a sustainable housing development. There is
(rather than nine stars) and reinvesting some of
limited ‘real world’ research available for sustainable
these capital cost savings into a larger solar panel
housing, particularly in the affordable housing sector.
system for each dwelling. This would reduce costs
Without this multidisciplinary evaluation there is no way
for the department while improving economic
to understand what has worked and what has been
outcomes for tenants. An eight-star house would
problematic and therefore what the lessons are. This
also reduce peak energy demand during hot spells
research is particularly critical in a transition to a more
compared to a standard dwelling.
sustainable future, where the risk of a changing climate
3. The design of both new and retrofitted dwellings
and increasing liveability costs are likely to cause
should consider providing smaller spaces for
mounting challenges for organisations such as the
tenants to heat and cool during times of extreme
department and the tenants who live in its dwellings.
weather so they don’t have to heat and cool entire
The outcomes of this evaluation are critical not only for
dwellings or large open spaces.
improving and guiding future the department housing
4. Ensure dwelling gardens contain climate-
stock decisions, but are also relevant to a global
appropriate plants to encourage more tenants to
audience.
participate in gardening activities.
Recommendations
Maintenance
The Catalyst houses have resulted in improved
5. Develop a clear schedule of works for sustainability
outcomes across a range of metrics for the
building elements and technologies, including
department, the tenants, society and the environment.
maintenance and cleaning requirements, to
The following recommendations assume the following
ensure these elements can operate with maximum
set of the departments objectives for new housing:
efficiency.
•
durability and low maintenance of assets
•
low construction costs
sustainability technologies to promote early
•
improved tenant comfort
detection of faults and maintenance needs.
•
minimised tenant vulnerability to energy and water
•
6. Consider installing remote monitoring of
costs (low operating costs)
Tenant-department relationship
tenant safety in extreme weather.
7. Engage tenants in home sustainability strategies
With this in mind, the research team makes the
through strong relationships with regional contacts
following recommendations:
and tailored in-person advice, rather than through generic call centres or extensive written information
23 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
(which is only likely to assist a limited number of
wellbeing benefits, are captured and fed into the
literate and engaged tenants). Focus mainly on
departments whole-of-life financials and policy
interested tenants.
development.
8. Provide alternative cooling options to air
11. Develop a larger new build trial based on this
conditioning for tenants during extreme heat
evaluation to explore ways to improve capital costs
events, such as low-cost retrofitting (for
for such projects across a range of department
example, ceiling fans, secure screen windows
dwelling types. This would also address the
and doors, external shading), provision of other
limitation of this study, which is the small sample
accommodation, and cooled community facilities
size.
(for example, public libraries). 9. Use language for trial projects that is more
It is important that these evaluations are mixed
engaging for tenants and media. For example,
methods, as this evaluation has demonstrated that
rather than ‘Catalyst’, name projects to reflect their
relying on quantitative or qualitative data alone would
comfort, health and liveability benefits.
not have captured the complete story of how the Catalyst houses were performing.
Evaluation, process improvement and data management 10. Repeat holistic evaluations of new and existing housing developments so that a more detailed understanding of the costs and benefits, including observed and unmeasurable health and
24 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
25 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
1. Introduction 1.1 Project description, aim and scope
The construction of the Catalyst houses was
This document reports on a study into the evaluation
completed in April 2012 and the houses occupied in
of a low-carbon public housing demonstration
May 2012. The construction project was developed to
housing located in Horsham, Victoria. The Horsham
demonstrate a new standard in sustainability in lower
Catalyst Research and Evaluation was funded by the
density public housing and to allow the department
Department of Health and Human Services (herein the
to gain a better understanding of what this means
department) and undertaken by the Beyond Behaviour
for its clients (households). The Horsham Catalyst
Change Research Program in the Centre for Urban
Research and Evaluation (the analysis presented in this
Research at RMIT University (RMIT research team). The
report) was part of a suite of research projects being
evaluation was conducted from May 2012 to October
undertaken by the Environmental Sustainability team at
2015.
the department, which focused on gathering evidence of the costs and effects of environmental activities on
The evaluation brief was developed by the department
the department, its clients and the environment.
(RFQ Reference Number – C2308). The aim of the evaluation, as detailed in the initial brief, was to
The evaluation deliverables and timelines agreed
conduct a multi-year evaluation of four new two-
between the department and the RMIT research team
bedroom, single-storey units (Catalyst houses) on
are presented in Table 1. A more extensive outline
the site at 22–24 Pearl Street, Horsham, in addition
of each of the deliverables is provided in the RMIT
to seven Control1 dwellings (located in Horsham). All
research team’s Evaluation Plan.
dwellings were evaluated across a range of economic, social and environmental key performance indicators
The research scope was limited to the evaluation
(KPIs) (see Section 1.2). The evaluation brief included
of the 11 dwellings identified by the department.
research with tenants living in the dwellings, as well as
These households had already been approached to
key stakeholders involved in the design, construction
participate in the research prior to the engagement of
and ongoing management of the Catalyst houses. The
RMIT University. In addition, the monitoring, collection
RMIT research team proposed and delivered a mixed-
and analysis of utility and temperature performance
method evaluation, involving the collection and analysis
data was conducted by Organica Engineering, which
of both qualitative and quantitative data. In this way
provided this data to the RMIT research team, which
a more detailed and holistic analysis of the Catalyst
subsequently conducted the CBA and other relevant
houses could be undertaken.
analysis. While the focus of this report is on the selected dwellings, much of the literature, analysis and
1 Standards 6 star dwellings with solar hot water and rainwater tanks but no other ESD technologies or design improvements.
26 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
discussion are relevant to the broader department housing stock.
Table 1: Key deliverables and timeline for the evaluation.
Deliverable D1. Methodology and evaluation management approach confirmed.
Deliverable Timing
By 6 May 2013
D2. Develop interview guides and conduct, transcribe and analyse interviews with
By 17 June 2013
households and stakeholders. D3. Develop a cost-benefit energy model and undertake analysis for the case study
By 29 July 2013
houses, including developing a baseline scenario. D4. Revise interview guides and conduct, transcribe and analyse interviews with house-
By 31 March 2014
holds. D5. Interim one-year report delivered in the form of a PowerPoint presentation with
By 28 July 2014
explanatory notes. D6. (Note this phase was altered to include the delivery of a home advisory tour and the evaluation was then conducted during D7.)
By 28 May 2015
Personalised home advisory tour with home sustainability assessor with each household. Short summary report to be submitted. D7. Revise interview guides and conduct, transcribe and analyse interviews with
By 24 September 2015
households and stakeholders. D8. Deliver final report, survey instrument templates and conduct final presentation to the department.
27 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
By 13 November 2015
1.2 Key performance indicators
Benefit 1: Improved client health, finances and
The evaluation was framed around a set of benefits
wellbeing.
and KPIs developed by the department prior to the
KPI 1: Decreased relative utility bills.
engagement of the RMIT research team. These
KPI 2: Improved financial circumstances.
were developed to help identify how successful the
KPI 3: Improved level of thermal comfort.
project was in meeting the project’s investment goals.
KPI 4: Reduced reported level of discomfort on
In summary, the original benefits and KPIs were as
extreme weather days.
follows:
KPI 5: Improved occupant health and wellbeing. KPI 6: Improved utility and mobility.
Benefit 1: Improved client health, finances and
KPI 7: Improved tenant engagement and experience in
wellbeing.
managing ESD and climate change-related aspects.
KPI 1: Decreased relative utility bills (pre and post
KPI 8: Improved neighbourhood satisfaction and
comparisons).
safety.
KPI 2: Reduced reported level of discomfort or nega
KPI 9: Improved life circumstances.
tive health effects on extreme weather days.
KPI 10: Improved relationship with the department.
KPI 3: Improved tenant engagement and experience in managing ESD and climate change-related aspects.
Benefit 2: Improved public perception and industry engagement.
Benefit 2: Improved new housing standards and
KPI 11: Positive media articles and public profile.
program that target available funds to client benefits.
KPI 12: Improved business practices.
KPI 1: Recommendations based on project evidence
KPI 13: Improved process and governance
are submitted to appropriate program, policy or
(stakeholder perspective).
standards committee.
KPI 14: Improved benefits across all actors from increased ESD (stakeholder perspective).
Benefit 3: Improved public perception and industry engagement.
Benefit 3: Improved new housing standards and
KPI 1: Positive media articles and public profile.
program that targets available funds to client benefits.
KPI 2: Increased engagement with building and
KPI 15: Recommendations based on evaluation
development industry sector.
evidence are submitted to appropriate program, policy or standards committee.
After the first stage of household and stakeholder fieldwork (see Section 1.3.3), additional KPIs were
The outcomes presented throughout the analysis
identified by the RMIT research team that were relevant
section will be reported against these revised KPIs.
to the evaluation’s aims and outcomes. In discussion
Note that the research addresses each KPI except for
with the department, the original KPIs were revised by
Benefit 2’s KPI 11 (positive media articles and public
the RMIT research team as follows (new or modified
profile), which fell outside the scope of the evaluation.
KPIs are in bold):
Further, there was no department resourcing or capabilities to complete this KPI.
28 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
1.3. Project methods The department engaged the RMIT research team to
low-carbon outcome. The houses averaged an 8.9
conduct a multi-year study evaluating the low-carbon
NatHERS star rating. They were completed in April
housing development and the lived experiences of
2012 and occupied in May 2012. In the context of
the households compared to a group of Control
these dwellings, low carbon refers to the predicted
houses and their households. The evaluation involved
operational energy performance for heating and
a mixed-methods approach, defined by at least
cooling being significantly less compared to the
one qualitative and one quantitative component
department Standards houses.
conducted within a single research project [1]. The five main research activities undertaken to address
In addition to the four low-carbon houses, seven
the evaluation deliverables were (i) literature review; (ii)
Control houses were also selected to participate in
household interviews and tours with households living
the evaluation. These houses had all been built within
in the Catalyst and Control houses, and interviews with
the three2 years prior to the low-carbon houses and
stakeholders involved in the design, construction and
had an average NatHERS rating of six stars. Table
ongoing use of the dwellings; (iii) a CBA based upon
2 presents key information about each dwelling and
the build costs and monitored consumption data from
household in the evaluation.
each house; (iv) a blower door test of dwellings; and (v) a home advisory tour designed to provide practical
The households in the Catalyst and Control houses
suggestions on how households could further reduce
were selected through the departments standard
their use of energy and water resources. Each activity
processes. This involves the department receiving
is detailed below, following an introduction to the
applications from low-income clients who are
demonstration project.
excluded from the private rental market due to their economic situation. Applications are assessed by
1.3.1 Project summary
the department and successful applicants matched
Four detached, low-carbon, two-bedroom
to suitable housing. Potential households for the
demonstration houses were built in the regional town
Catalyst houses were asked by the department if
of Horsham in Victoria, Australia. The regional location
they would be willing to voluntarily participate in a
was selected by the department due to the extremes
research evaluation on the performance of the houses.
in temperatures that occur across summer and winter,
Four consenting households were selected to live in
allowing for evaluation across a spectrum of climatic
the Catalyst houses and seven Control households
variances. The Catalyst demonstration houses utilised
were also organised by the department to be part of
a number of sustainable housing principles including
the evaluation. This was to allow some comparison
passive solar design, optimum orientation, advanced
between the two groups of households.
roof design, improved levels of ceiling, wall and floor insulation, external window shading, access to natural ventilation, increased thermal mass, reverse brick veneer construction, improved glazing, 5,000-litre rainwater tanks, 1.5 kW solar PV systems and solar hot water systems (gas boosted) to achieve the
29 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
2 Note that some households and stakeholders did not participate in each round of interviews due to challenges organising suitable times for interviews or in the case of the final round of interviews, withdrawal from the project.
The department provided the households with an
provided to the Control households beyond what
introductory sustainability training session on how to
typical department households would receive. The
use the various sustainability elements of the houses.
composition of the households is presented in Table 2.
There was no additional introductory information
Table 2: Characteristics of each household and house. Household
Dwelling
Thermal
Total
Total
Cooling
Solar
Rain-
make-up and
star rating
performance
internal
internal
technologies
hot
water
approximate
(heating
area
area con-
used in house water
tank
age at first
and cooling
(m2)
ditioned
interview
MJ/m2 per
Two ceiling
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
(m2)
annum)
Couple (early
8.9
26
100
74
20s) with two
fans in the
children (aged 3
living area
and 6 months) Husband and
8.9
25
99
72
wife (60+ years)
Two ceiling fans and split-system reverse cycle air conditioner in living area
Single woman
8.9
26
100
73
(60+ years)
Two ceiling fans in living area
Single woman
8.7
33
99
74
(55+ years)
Two ceiling fans in living area
Husband and
6.0
108
82
73
wife (60+ years)
Split-system reverse cycle air conditioner
Husband and
6.0
108
82
wife (55+ years)
73
Split-system reverse cycle air conditioner and pedestal fans
30 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
Household
Dwelling
Thermal
Total
Total
Cooling
Solar
Rain-
make-up and
star rating
performance
internal
internal
technologies
hot
water
approximate
(heating
area
area con-
used in house water
tank
age at first
and cooling
(m2)
ditioned
interview
MJ/m2 per
(m2)
annum) Single mother
6.0
108
97
84
None
Yes
Yes
6.4
98
52
40
Pedestal fans
Yes
Yes
6.0
108
97
84
Portable air
Yes
Yes
Yes
No
Yes
Yes
(mid 20s) and child (three years old) Single male (45 years) Husband and wife (55+ years)
conditioner
and teenage child under their care Single mother
6.0
110
88
75
(50+ years) and
Wall unit air conditioner
teenage child Husband and
6.0
108
85
wife (65+ years)
76
Split-system reverse cycle air conditioner
The specific codes used to report householder findings are not provided in this table to ensure households remain anonymous.
1.3.2 Literature review
interviews; one interview with each household3 was
Four detached, low-carbon, two-bedroom demonA
conducted each year of the evaluation (see Table 3).
detailed desktop literature analysis was undertaken
This allowed for follow-up questions that emerged
on the key themes that emerged in the framing of this
from the initial interviews and analysis and the
evaluation and from the analysis undertaken. These
opportunity to identify changes in the lived experience
themes were transitioning to a low-carbon future,
associated with longer occupancy in the houses. The
value of good design, sustainable housing and costs
longitudinal qualitative component of the evaluation
and benefits of sustainable housing. The international
is not a common research approach, especially for
and Australian literature is presented in Section 2 of
evaluations relating to sustainable and affordable
this report and builds on the information presented in
housing. This innovative approach arguably improves
the preceding background section.
1.3.3 Household interviews The interviews with the households in the evaluation involved conducting three rounds of semi-structured
31 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
3 Note that some households and stakeholders did not participate in each round of interviews due to challenges organising suitable times for interviews or in the case of the final round of interviews, withdrawal from the project.
analysis and outcomes for the evaluation [2, 3].
Interviews were conducted in tenants’ houses in pairs by the researchers for the first two rounds of
The RMIT research team developed an initial semi-
interviews, and by a sole researcher for the final
structured interview guide focusing on the evaluation’s
round of interviews. In total 17 participants across
KPIs for both the Catalyst and Control households
the 10 households were interviewed, including one
noting differences between questions where
house that changed occupants between the first and
relevant to the different house types. The interview
second rounds of interviews (Control house A – ConA,
schedule was then reviewed by the department
with the second household known as ConA2). The
and changes incorporated into the final version.
interviews lasted an average of approximately 45
Appendix 1 contains the schedule for the first round
minutes. House tours were conducted at the end of
of interviews. The schedule was revised for the
each interview to visually explore the lived experiences
second and third rounds of interviews based on
of households and the ways in which they interacted
information and analysis of the preceding interview
with their house’s features. Each household received
round(s). Interview questions focused on assessing
a double movie pass as a recompense for each
tenant health, finances and wellbeing, and included
interview for the first and second rounds of interviews
questions about utility bills, reported levels of comfort
and an $80 Coles-Myer gift card for the last round of
on extreme weather days and households overall lived
interviews. The interviews and house tours were audio
experiences.
recorded and transcribed verbatim by a third party. The transcripts were thematically coded using the qualitative analysis software NVivo.
Table 3: Household participation in interviews.
Household
First round interview June 2013
Second round interview March 2014
Third round interview August 2015
CatA
✓
✓
x
CatB
✓
✓
✓
CatC
✓
✓
✓
CatD
✓
✓
✓
ConA
✓
x
x
ConA2
x
✓
✓
ConB
✓
✓
✓
ConC
✓
✓
x
ConD
x
✓
x
ConE
x
✓
x
32 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
As with all methods, qualitative research has a number
information was obtained and can be used to inform
of strengths and weaknesses. Strengths include the
future housing performance and social housing policy,
ability to study in greater detail the understandings,
both in Australia and internationally, even more so
actions and practices of individuals or groups,
than if either approach was applied in isolation. As
particularly in regards to more complex situations; the
Ridley et al. [6] state about their detailed case study
ability to cover and account for contextual conditions
of only two low-carbon dwellings, such studies of
and situations; and not being restricted to specific
limited numbers of houses and households allows for
questions [4, 5]. Weaknesses include difficulties in
“quick feedback and performance data to the design,
ensuring consistency, researcher bias, self-reported
construction and regulatory community, developing
action bias (participants providing answers they think
and testing evaluation methodologies that can be
the researcher wants to hear), difficulty in generalising
later standardised and applied to the meta-analysis of
wider outcomes from limited numbers of cases,
larger data sets”. This is one of the aims and KPIs of
and the time-consuming nature of data collection
the project as set by the department.
and analysis [4, 5]. Steps were implemented in this evaluation to reduce weaknesses in the interviews
1.3.4 Stakeholder interviews
through techniques such as repeating key questions in
Semi-structured interviews were also conducted
different ways throughout the interviews, allowing the
with five key stakeholders involved in the design,
researchers to check answers. Furthermore, the multi-
construction and operation of the Catalyst houses.
year nature of the interviews ensured that answers
Two rounds of interviews were conducted with the
were cross-checked between the three rounds of
key stakeholders, the first at the start of the evaluation
interviews, allowing the researchers to account for
in 2013 and the second in September 2015. The
‘new home’ feelings and bias.
stakeholders included two department employees, the architect, the builder and the electrician (see Table 4).
A limitation of the research is the small number of
As with the tenant interview schedule, the RMIT
houses and households involved. The limitation was
research team developed an initial semi-structured
exacerbated by challenges in contacting households
interview schedule on the evaluation’s KPIs relating
and arranging interviews. Some households did not
to the stakeholders. The interview schedule was
have phones or answer them. Home visits by the
then reviewed by the department and changes
department regional team were sometimes required
incorporated into the final version. Appendix 2 contains
to set up interviews with tenants. For the second
the first interview schedule for the stakeholders. The
round of interviews, the department regional office
interview schedule was revised for the second round
was unable to assist with recruitment, making this
of interviews based on information and analysis of
task particularly challenging for the Melbourne-based
the preceding round of interviews and analysis of the
research team. Additionally, some tenants were not at
tenant interviews.
home at the agreed time (despite reminders from the research team) or needed to pull out of the interview
Interviews were conducted in pairs by the RMIT
on the spot due to unforeseen circumstances.
researchers at the stakeholders’ offices or via telephone for the first round of interviews, and by a
While this is a small data set, valuable and detailed
33 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
sole researcher for the final round of interviews. In
total five key stakeholders were interviewed, with
transcribed verbatim by a third party. The transcripts
two stakeholders interviewed a second time. The
were thematically coded using the qualitative analysis
interviews lasted an average of approximately 40
software NVivo.
minutes. The interviews were audio recorded and
Table 4: Stakeholder participation in interviews.
Stakeholder code
First round interview June 2013
Second round interview September 2015
Stakeholder A
✓
x
Stakeholder B
✓
x
Stakeholder C
✓
✓
Stakeholder D
✓
x
Stakeholder E
✓
✓
1.3.5 Cost-benefit analysis For this analysis four types of scenarios were
Resource consumption for each demonstration
developed: 1) a general business as usual scenario
house was provided by monitoring equipment for
(the standard houses the department builds: six-
the first three years of occupancy (June 2012 to May
star building envelope with solar hot water, ‘average’
2015). Data was collected and provided by Organica
household behaviour based on energy analysis from
Engineering, which was engaged by the department
the Australian Government – known throughout at the
separately to the engagement of RMIT University.
department Standards [7]); 2) the scenario based on
There were issues with this data collection relating
the Control houses in this evaluation; 3) the Catalyst
to the utility companies not providing billing data
house scenario; and 4) a Standards Industry Practice
despite relevant occupant consent being provided
(SIP) scenario developed to reflect minimum general
and in-home monitoring equipment going off-line for
public housing performance outcomes. The analysis
different periods of time (see Section 6). Future utility
used data from the Catalyst and Control houses for
consumption was assumed to be consistent with
scenarios two and three, making the outcomes of
the averaged data from the monitored period. The
the CBA more rigorous than studies that are based
research team recognised that changes to household
on predictions and assumptions. The CBA (referred
structures, circumstances, finances, climatic conditions
to as the CBA model) was undertaken building upon
and the number and use time of appliances and
previous CBA performed by the research team [8].
efficiencies of such appliances would alter utility
34 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
consumption. It is difficult to predict how households
The following table is a summary of assumptions
may change; therefore it was assumed households
applied in the CBA. A more detailed explanation of
(and future households) would behave as they do
assumptions is provided in previous similar research
currently. This is a limitation of the research.
undertaken by the research team [8].
Table 5: Summary of data sources used for CBA assumptions. Assumption
Data Source
Upfront additional ESD building and technology costs
The department
Replacement costs
[8] and others
Maintenance costs
[8] and others
Inflation rate – 3%
RBA
Life of house – 40 years
Australian Building Codes Board
Net present value – 0%, 3% and 7%
[8] and others
Feed-in tariff – $0.31/kWh
The department/consumer bills
Utility usage
Organica Engineering/ consumer bills
Solar and rainwater collection/generation
Organica Engineering/ consumer bills
Utility costs
Consumer bills (average)
Future utility costs
[8] and others
Solar hot water, rainwater tank (not plumbing or pump)
Same as per standard department build
Energy scenarios
[8]
Resale value
[8] and others
the department Standards and Standards Industry Practice (SIP) houses (baselines)
Organica Engineering
The analysis was undertaken across a 40-year period.
come with warranties for performance of between
This is the length of time used by the Australian
20–30 years. There is no certainty within the literature
Building Codes Board in its research for building
about the future evolution of renewable energy
standards [9].
technologies in terms of energy generation (efficiency and capacity) and new innovations. Therefore, when
It was assumed that the life of the solar PV system
technologies were replaced at the end of their life
was 30 years, with the inverter requiring replacement
throughout the CBA model, it was assumed that their
every 10 years. This is in line with other low energy
energy generation performance would remain as it
housing research. Furthermore, many solar PV systems
did in 2012 (the base year for the research). However,
35 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
improvements to existing technology and new
throughout the CBA modelling. This was calculated
technology innovation will likely result in changes to
based on an average taken from Reserve Bank of
technology requirements in future years. By assuming
Australia data from January 2001 to December 2010
these changes do not occur, the CBA modelling in
(10 years) [14].
effect presents a ‘worst case’ scenario. The discount rate is the rate applied to calculate the The only assumption made to replacement
worth of future cash values in present values (net
technologies was that a learning curve of 18 per cent
present value). Selecting the appropriate discount
cost reduction for each doubling of production would
rate is an issue that is heavily contested, and the
be applied, as used by International Energy Authority
selection of a particular discount rate can significantly
modelling [10, 11]. This was calculated applying
alter outcomes [15, 16]. The Australian Office of
historical and current data regarding the supply and
Best Practice recommends using a discount rate
installation of solar PV systems as presented by the
of seven per cent [17]. However, some researchers
International Energy Agency [10, 11]. Predicted growth
and economists discuss that for long-life modelling,
of solar PV systems globally was obtained from the
such as in the case of housing, a lower discount rate
International Energy Agency, which predicted that total
should be applied [18, 19]. The UK Government uses
installed PV capacity would increase at about 13 per
a declining discount rate of 3.5 per cent for the first 30
cent per year between 2008–2035 [11]. This growth
years, falling to 3.0 per cent from 31 to 60 years, for
rate was assumed to continue throughout the CBA
example [19, 20].
modelling time horizon due to the lack of any growth predictions beyond this time. This provided the basis
Three discount scenarios were considered; one was
for information on when the doubling of production of
a zero per cent discount rate, in essence reflecting
PV would occur. It was assumed that rainwater tanks,
the public good nature of the project; scenario two
plumbing and the pump were products that had limited
was applied in line with the real discount rates used
potential for design and cost-efficiency reductions.
in the UK listed above [19, 20]; with scenario three
Therefore, only the inflation rate per year was added
undertaken in line with the Australian Government’s
for the replacement costs to the original costs for these
[17] real discount rate requirements listed above. A
elements.
declining discount rate as used by the UK Government was applied for analysis of scenarios two and three
An operation and maintenance cost of one per cent of
between 31 to 40 years [20].
capital costs a year was added for all solar PV systems and inverters [11, 12]. The additional maintenance
Utility usage, solar generation and rainwater collection
cost for the rainwater tank pump and plumbing was
and usage were taken from the monitoring data
calculated using The cost-effectiveness of rainwater
provided by Organica Engineering and cross-checked
tanks in urban Australia [13]. From this report it was
where possible with consumer bills. Where there was
determined that there would be a maintenance cost of
a significant difference (as there was for the gas usage
$23 per dwelling in 2012. An inflation cost was added
for the Catalyst houses), the lower figure was used
to all maintenance costs for future years.
(generally the consumer bill).
A rate of inflation of three per cent was applied
The cost of utilities was taken from an average of the
36 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
consumer bills provided. The model provides data for
economic resale value of almost AU$9,000 was
different times of use for energy; however, in this report
achieved. Another significant resale value study from
the anytime price data (same price no matter what
the USA [24] found that for every dollar saved in energy
time of day energy is used) is presented. The other
bills, an added value of US$20 resale value is added to
scenarios can be found in the Excel model (provided
the house. Both of these assumptions were applied in
to the department – not in this report). A feed-in tariff
the evaluation’s model to show the range of outcomes
of $0.31/kWh was applied. This figure was taken from the consumer bills. It should be noted that it is unlikely
Applying a standard depreciation approach has been
future projects would achieve this rate, with the current
identified within renewable energy technology literature
feed-in tariff in Victoria being $0.08/kWh. For the start
as an appropriate method to calculate future worth
of the CBA in June 2012, the following utility prices
of renewable energy technologies [25]. A declining
were applied:
balance depreciation method was used in this model as per Jackson et al. [26]. This method assumes a
•
solar feed-in tariff – $0.310/kWh (net)
decrease in value that is more rapid at the start of the
•
electricity anytime usage – $0.279/kWh
asset’s life span.
•
gas anytime usage – $0.017/MJ
•
water – $1.953/kL.
The department construction standards for new build, low-density housing (the department Standards)
Two future energy price predictions were derived out to
and SIP houses are a baseline for utility use, which
the year 2051 from Garnaut [18], Hatfield-Dodds and
are the basis for comparison throughout this report.
Denniss [21] and the Essential Services Commission
These scenarios are for a two-bedroom, two-
[22]. High and low energy cost scenarios were
occupant dwelling with solar hot water but no other
calculated, in essence presenting a range of outcomes
ESD technologies. The predicted utility consumption
for the analysis. These will be identified throughout
of these two scenarios is presented in Table 11 in
the presentation where appropriate. The prices
Section 6.2 and was developed from the initial baseline
exclude the Goods and Services Tax (10 per cent);
performance tool that was provided by Organica
and daily connection costs as these were assumed
Engineering and contains assumptions about utility
to be consistent across all housing scenarios as they
consumption for the two cohorts of ‘occupants’ –
all remained connected to the local energy and water
the general public across all housing types and the
infrastructure.
department tenants.
Past research has shown that improved housing
Additional capital cost data was provided by the
energy performance adds to the resale value of a
department for the improved building envelope
house. A report by the Department of the Environment,
thermal performance, solar PV systems and the
Water, Heritage and the Arts (DEWHA) [23] titled
rainwater tank plumbed into the house (see Table 6).
Energy efficiency rating and house price in the ACT
Maintenance and replacement costs of the additional
found that for every one-star improvement to a house
sustainability technologies were applied in the analysis
in the Australian Capital Territory, Australia, an added
where appropriate. An additional resale value of the
37 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
demonstration houses was also calculated based upon
change program due to issues identified in the first two
DEWHA [23].
rounds of interviews. In particular, it was found that any information-based behavioural change campaign
1.3.6 Blower door test
would likely have a very small impact on these
The blower door test is a standard method for
households due to low engagement with previous
measuring the air tightness or ‘air leakiness’ of
written materials provided by the department, and
a dwelling. Testing is carried out according to
suspected low literacy in some households. Instead, a
international standards and protocol, such as
personalised assessment (or tour) was offered to each
EN:13829 (2001) and ATTMA (the Air Tightness Testing
household participating in the research. All Catalyst
and Measurement Association). The measurement
and Control households were contacted to participate
of air tightness helps to investigate the energy
in the home advisory tour. Households were offered
performance of a dwelling, in terms of heating and
a double pass to the local cinema as encouragement
cooling loads, and informs issues such as indoor air
to participate. In total seven households (four Catalyst
quality and dwelling ventilation rates. The test takes
and three Control households) agreed to participate in
approximately one hour to set up and perform. A fan is
the home advisory tour. The home advisory tours were
fitted to the door of the dwelling using a dismountable
conducted during March 2015.
frame and is used to blow air into and out of the building. A blower door test was conducted on all
The expected advantages of the home advisory tours
dwellings in the evaluation where the households gave
were to:
consent.
1. enable greater trust and household engagement through a face-to-face approach 2. take tenant understandings and circumstances
1.3.7 Home advisory tour A member of the RMIT research team conducted a
into account when identifying energy and comfort
home advisory tour with households participating in the
advice (for example, presence of children in home,
evaluation. This activity replaced a proposed behaviour
health issues)
Table 6: Cost for sustainability elements of each Catalyst house Element
Additional cost per house
8.9-star building envelope
$55,300
1.5 kW solar PV system
$9,600
Plumbing of rainwater tank into house
$10,800
Total
$75,700
38 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
3. primarily provide verbal recommendations
ideas were taken into account to formulate a short list
to tenants and use written information as a
of recommendations that were verbally revisited at the
supporting strategy only
end of the home advisory tour and briefly summarised
4. gain further insights into strengths and
in a handwritten summary. The household summary
weaknesses of Catalyst home designs and any
included a ‘Going Well’ section to acknowledge
ways the Control homes could be modified to
tenants’ energy and water efficient practices, and
improve the project’s KPIs.
was designed to be a brief and visible ‘at a glance’ summary (see Appendix 3 for an example).
The home advisory tours aimed to: 1. capture the households’ current practices and
The advisor carried a range of potentially useful
engagement with the ESD features and/or
printed information (for example, websites with energy
available housing infrastructures and appliances
efficiency information, concession and energy hardship
2. advise how thermal comfort and resource savings
information and no interest loans scheme information)
could be improved or done differently for the
that could be given to tenants who indicated interest.
households.
However, other than one tenant at risk of electricity disconnection, tenants did not indicate interest in
The home advisor was a member of the RMIT research
further information and some (including young tenants)
team who had not previously visited the homes (during
did not have home computers to look at websites.
interviews) and was unknown to the tenants. The
This further confirms the limitations of providing formal
advisor’s approach was to present as an ‘expert’ but to
written information and advice to these households.
conduct the home advisory tour in an informal manner.
The evaluations of the home advisory tours can be
The advisor wore typical tradesperson work clothes
found in Section 4.
and took a ladder to each house.
1.4 Structure of the report The advisor asked introductory questions about
The outcomes of the research activities detailed above
household health, utility bills and payment
are presented across the remaining report as follows:
and experiences of hot weather in the home. These discussions provided a basis for further
Section 2 presents an analysis of the literature
recommendations. A room-based guide for the home
concerning transitioning to a low-carbon future,
advisory tour and energy and water topics was used
value of good design, sustainable housing and costs
(see Appendix 3), but the order and focus were
and benefits of sustainable housing. This section
adapted to suit tenant circumstances and interests.
establishes the broader international and Australian
In the Catalyst homes, each of the ESD features
context within which this project sits in order to aid
were discussed to probe familiarity and use and help
the understanding of the analysis outcomes and
households understand how to get the most out of
recommendations.
each feature. Energy and water efficiency, comfort and environmental ideas were discussed with the tenant
Section 3 presents the findings from interviews with
during the home advisory tour. The responses to these
households and the outcomes of the evaluations of
39 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
the home advisory tours. These are presented based
stakeholders in relation to relevant KPIs. Information
on the relevant household KPIs. Outcomes from the
from the first round of interviews is presented, followed
first round of interviews are reported for each KPI, with
by any changes noted in the final (second) round of
changes identified in the second and third rounds of
interviews with stakeholders.
interviews noted at the end of each section. This is followed by the evaluation of the home advisory tours
Section 6 presents the dwelling performance and CBA.
in Section 4.
The key research outcomes are summarised in Section 7, with recommendations from the research presented
Section 5 presents the findings from interviews with
40 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
in Section 8.
41 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
2. Literature Review 2.1 Transitioning to a low-carbon future
The typical response from governments in developed
This The way we (as a society) currently build and use
countries when addressing the sustainability of
housing in developed countries is unsustainable in
housing has been the setting of minimum performance
respect to the widely acknowledged need to transition
regulations [36]. These typically reduce heating
to a low-carbon future [27-29]. The environmental
and cooling energy requirements, although some
impact of housing is generally considered across
more recent standards go beyond this to include all
two broad phases of the house: 1) design and
resources consumed in a dwelling and consider things
construction; and 2) through-life use. With dwellings
such as onsite renewable energy generation and water
typically lasting 40 years or more, the through-life
collection and reuse [37].
environmental impacts can be significant [8]. These impacts are created from the use of resources such as
While Australia has made progress towards improving
energy and water. For every new dwelling that is built
the environmental performance of its housing stock
and does not meet low-carbon outcomes, we continue
through the introduction and incremental adjustment
to add to the problem of an unsustainable built
of such standards, the current requirement for new
environment. With a growing population, increasing
or renovated dwellings in Australia stills falls short of
numbers of dwellings and predictions of growing
those standards required for a low-carbon future [38,
energy consumption, the challenge of transitioning to a
39]. In particular, in recent decades there have been
low-carbon housing future is evident [7, 8].
significant increases in the use of energy for heating and cooling, especially during heatwaves or cold spells
The environmental performance of a dwelling is
[40-42]. These increases have been driven in part
strongly dependent on two key factors. The first is
by thermally poor housing, the falling purchase cost
how households use the space, for instance how
of air conditioning units and the rising expectations
many hours they are in the house, if they turn lights
of thermal comfort levels all year round [43, 44]. The
off after leaving rooms and how many appliances they
increasing use of heating and cooling technologies has
have (and use) [30-32]. The second is the ongoing
raised overall energy demand and greenhouse gas
impact of the initial design and materials used during
emissions in countries such as Australia, and led to
construction [33, 34]. For example, improvements to
such pressure on energy networks, it has resulted in
the building envelope (such as increasing insulation
brownouts or blackouts [40, 45, 46].
and window glazing performance) lower the need for heating and cooling technologies and, in turn, the
The increasing use of energy and water has resulted
energy required to power these. The environmental
in higher utility bills, causing financial stress for
sustainability of housing in Australia has been found
some households [41, 47]. Research has found that
to be significantly behind that of comparable climate
vulnerable households often cannot afford to install and
zones in the UK and USA [35].
use heating and cooling technologies, which impacts
42 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
their ability to maintain thermal comfort and personal
improved health due to more suitable thermal comfort).
health during extreme weather events. A rise of $20
Researchers have been able to measure improvements
per month for utilities can be too much for some low-
to health, wellbeing, day-to-day finances and property
income households [41].
resale value from improving residential design outcomes to include sustainability principles [67-70].
Various case studies demonstrate that knowledge,
These benefits apply directly to the household and
technology and skills are available to achieve low-
also the wider community. For example, if a vulnerable
carbon and low environmental impact housing,
household is able to keep their utilities connected,
providing a model of what we should be striving to
this could reduce their impact on social services. Or
achieve [48, 49]. While there is an increasing number
if there is a local park, this can be used by the whole
of housing professionals and households embracing
community to achieve health and wellbeing benefits.
sustainability globally, low-carbon and low-energy
Research about the value of good design is limited
housing has yet to be replicated across the broader
in the Australian context, although there is some
housing sector. A key challenge has been that the
exploratory data about additional resale values of
building industry has been slow to change and only
improved dwelling thermal performance [23].
done so when required by regulations or to make use of subsidies, rarely going beyond minimum
Policymakers are also recognising the benefits of
requirements. This is partly because there is a
well-designed, sustainable dwellings. The City of
perception that improved sustainability is unaffordable
Melbourne has released several reports in recent years
[50, 51].
that highlight its concerns that the rapid development of the Melbourne CBD is being done without due
2.2. Value of good design
consideration of good design [71-73]. It fears that
Well designed, low-carbon and low-energy housing is
without intervention little will change, and that it will
not just about reducing environmental impacts. There
lock consumers of these properties into decades of
is increasing literature on the wider value of good
poor housing value and use outcomes. This concern
design (of which environmental performance forms a
has also been expressed in other countries [74].
part), particularly from the UK and USA, across a range of building types, including housing [52-60]. These
Achieving good design outcomes has largely been
wider benefits (typically referred to as ‘intangibles’)
driven by housing performance standards (see Section
include quality of life, health and wellbeing, a sense
2.1). The challenge remains that few developers go
of place, satisfaction, liveability, equity, maintenance
beyond these minimum requirements and where they
requirements, culture, mobility, improved thermal
do, it tends to be at the higher end of the property
comfort, lower living costs, reduced environmental
market where they use this as a marketing tool to
impacts, improved dwelling performance during peak
differentiate themselves from other products. The
weather conditions, and a lower (or no) requirement on
concern from the building industry is that there is a
mechanical heating and cooling [6, 30, 39, 48, 61-66].
capital cost associated with achieving these improved
Most of these benefits are directly experienced by the
designs, which it feels consumers will not want to pay
household, but some also impact on wider society
for [75].
(for example, fewer trips to the doctor because of
43 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
2.3. Sustainable housing As mentioned in Section 2.1, over the last few decades
a range of approaches to help reduce the negative
there has been an increasing focus on improving the
impacts of thermal discomfort. As discussed in Section
environmental performance and liveability of dwellings
2.1, there is an increasing use of air conditioning as a
across their life cycle. The challenge for sustainable
means of addressing tenant comfort and health within
housing to become mainstream is related in part to a
the built environment, particularly during heatwaves
dearth of knowledge and skills and a building industry
[40, 41]. Around the world policymakers are exploring
that is resistant to change. The current challenge is
ways to reduce reliance on air conditioning in response
focused on the perceived additional capital costs to
to changing expectations of thermal comfort and to
build sustainable housing, the through-life benefits of
address sustainability concerns [40, 41]. One model
such housing, and to whom these benefits apply [8].
that has emerged is the adaptive model of comfort, which moves away from air conditioning as the answer
Around the world, there are an increasing number of
to thermal comfort [70, 81]. This model argues that
innovative housing developments that have attempted
people can adapt to and, in many cases, prefer a
to address housing quality, sustainability, affordability
much wider range of temperatures than previously
and social improvements as a way of promoting and
suggested through engineering thermal comfort
advancing sustainable and liveable communities. While
standards, such as those proposed by the American
not always getting the outcomes right, these exemplar
Society for Heating, Refrigeration and Air-conditioning
buildings are moving the policy, planning and research
Engineers (ASHRAE) [70, 81].
discussion forward. Noted examples include BedZED (London, UK), One Brighton (Brighton, UK), Printworks
For example, Indraganti [82] found that almost 100
(London, UK), Adelaide Wharf (London, UK), Twelve
per cent of households were comfortable in their
West (Oregon, USA), zHome (Washington, USA),
case study in India at 30oC indoors. Eighty per cent
Josephine Commons Development (Colorado, USA),
were comfortable up to temperatures of 32.5oC. In
TaiGe Serviced Apartments (Shenzhen, China), K2
Australia’s southern states, Strengers and Maller [83]
(Melbourne, Australia) and The Commons (Melbourne,
found a wide variation in the temperatures households
Australia) [61, 76-80]. These developments typically
felt comfortable at (up to 35oC in summer). For
have improved building envelope performance and
household occupants, adaptive thermal comfort
passive design features, while including technology
activities in hot conditions commonly include opening
improvements (for example, LED lighting) and other
and closing windows, adding or removing clothing,
sustainability technologies such as on-site renewable
closing blinds, using wet towels, having cold showers
energy generation.
and using a fan [70, 82, 84, 85]. Limited understanding about the complexity of how households’ interactions
Thermal comfort is a major benefit of sustainable
with their houses contributes to realised dwelling
housing (particularly how it links to health and financial
performance, and thermal comfort has been identified
outcomes and a wider provision of energy). It is also
as a barrier to achieving widespread low-carbon
becoming an increasing focus of housing policy as
housing [86].
there are more frequent extreme weather events (for example, heatwaves). Many countries are exploring
44 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
2.4. Costs and benefits of sustainable housing In recent years there has been an increase in research
viable to improve minimum performance requirements4
and analysis that looks at the predicted costs and
[87]. Benefits found included reduced utility bills,
benefits of improving the minimum sustainability
improved household comfort, improved household
requirements of housing from a range of perspectives
health, increased employment, industry innovation
[38, 48, 87-90]. This research has found that achieving
and reduced greenhouse gas emissions across the
a zero carbon performance standard is likely to add
life of the house [93, 94]. As a result of progress for
between five per cent to 15 per cent to the cost of
sustainable housing over the past decade, zero energy,
building a dwelling. However, this cost would achieve
carbon and emission housing is now international best
a payback for the owners within 10 years, making
practice.
the proposition an attractive one over the 40-plusyear lifespan of a house. In fact, research has shown
While CBA is a useful tool, it is criticised for failing to
substantial economic benefits for households when
adequately deal with placing a value on some social
just energy cost savings are factored in to payback
and environmental dimensions within analysis [8, 92,
periods (excluding wider social benefits) [38]. The
95]. These include improved household health and
challenge is to reposition discussions about housing
comfort and improved living affordability [95, 96].
affordability from those that are focused on upfront
Golubchikov and Deda [95] believe that a case for
capital costs (or mortgage repayments) to those that
policy approaches to improve housing sustainability
are focused on through-life affordability.
performance can be made on these social benefits alone.
Many researchers and governments have conducted detailed CBA in order to frame policy responses to
Studies that employ only CBA tend to overlook much
housing sustainability. CBA is a tool for undertaking
of this social complexity, and leave policymakers with
systematic analyses of total cost inputs against total
significant gaps regarding the qualitative dimensions of
expected outputs of various policy or program options
infrastructure investments. The dual use of qualitative
compared to a business as usual approach in an
and quantitative methods has been effectively
attempt to identify economic efficiencies [91, 92]. CBA
employed across a range of policy arenas such as
converts inputs and outputs into a common metric
welfare [97], health care [98], fuel poverty [99] and
to allow for comparison between policy or program
climate change [100]. However, to date there has
options. Typically this metric is expressed as value in
been limited research applying the two approaches
present day dollar amounts.
in the evaluation of housing policy and environmental performance, both internationally [101] and in Australia
The UK developed a 10-year policy approach to
[39].
transition to net zero emission houses based upon initial CBA modelling, which found that it was financially 4 Note that while the UK sets a policy goal of requiring all new houses to meet a net zero emission standard from 2016, a recent change in policy has diluted these performance requirements. However, the broader EU has requirements that new dwellings must meet net zero emission standards from 2020.
45 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
46 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
3. Interviews with households This section of the report presents the analysis of the
a share house and found it difficult to compare their
household interviews repeated across three years.
previous bill with the Catalyst house bill, even though
The section is structured around each KPI to address
they said their gas and water bills were lower overall.
progress towards the evaluation objectives and
The transition was challenging for this young couple,
indicators. The analysis presented focuses on change
who were now solely responsible for their living costs.
over time. Round one interview findings are first
They were surprised at their large initial electricity bill
presented for both Catalyst and Control households
(more than $600), which they were still paying back
against each indicator. These are followed by any
when they participated in the first round of interviews.
changes noted during rounds two and three of the interviews. Where a household was not interviewed
Apart from the large first electricity bill for CatA,
in round one, but was interviewed in round two (for
the other Catalyst households stated they had less
instance, ConD, ConE and ConF), this round two data
difficulty paying their utility bills in comparison to their
is presented in the round one interview analysis, with
previous dwelling. CatB felt they were at least ‘$250
the third round interview data presented in the rounds
per quarter’ better off even though they now had to
two and three additional notes. Each KPI also contains
pay for water, which they did not have to do in their
a summary of key points for the Catalyst and Control
previous house. In part they said this was due to the
houses. In some instances there was little evidence
‘very, very good, very economical’ heating system.
addressing specific indicators, and so only summary
The households in CatB used to live in two separate
dot points are provided.
houses and so there may also have been some economic efficiency in moving in together as well as
3.1. KPI 1: Decreased relative utility bills
from the improved performance of the dwelling.
Objective: 1. Reduce cost of utility bills Indicator: 1. Perceived/self-reported and actual
Three of the Catalyst households described how the
reduction of utility bills.
solar panels on their dwellings had helped get their
And
energy bills in credit at various times of the year, which
Indicator: 2. Changes in tenant attitude to utility
had made a significant impact on their living costs and
billing, and concessions.
broader liveability of the dwellings.
Catalyst households All of the Catalyst households reported paying less (in terms of the total bill) for gas and water when compared to their previous dwellings. Furthermore,
CatC: …I’ve saved so much money in the time I’ve been here because not paying, you know, so much electricity bills and stuff so my bank account’s sort of got up a bit and it’s like wow this is alright.
three of the four Catalyst households were paying less for electricity, with the fourth (CatA) uncertain if they were or not. This was because they had come from
47 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
CatD: [It’s] the first time ever I’ve been in credit on a power bill [laughs]
The Catalyst households indicated that there had been no change in the concessions they received. The tenants also appeared more relaxed about their utility bills. For example, the households in CatD stated:
CatD: …It is easier…I don’t have to stress that, “Oh my God, I’m going to have a power bill come in”.
ConA: Using the bottled gas up at [my previous residence] was very expensive whereas the natural gas here isn’t as bad…and the same with the solar power for the hot water, it makes it cheaper.
Five of the Control households said they were able to pay their utilities on time. The two Control households who had not been responsible for paying for utilities in their previous dwellings both also faced challenges
IN SUMMARY:
paying their utility bills, and had been placed on an
•
automatic payment plan.
Three of the four Catalyst households reported lower operating costs compared to their previous residences, particularly in regards to electricity and gas utilities.
•
Three of the four Catalyst households
ConC: [My] power bill went from about $140 to $260 for that quarter...I had to make three payments on it but they [energy company] were good about it, they understood.
were more positive regarding utility billing because their bills were lower than
All Control households indicated that there had been
previous dwellings. They reported no
no change to their concessions for utilities or otherwise
change in any concessions they received.
since they had moved into their current houses. There
This could not be cross-checked with
was also little indication of any improvement or change
billing data due to difficulties in obtaining
regarding their attitudes towards utility billing.
relevant information from the utility companies. IN SUMMARY: •
better off compared to their previous dwelling
Control households
in terms of reduced utility consumption.
Six of the seven Control households reported that their bills were no better off in comparison to their previous
Only one Control household felt they were
•
Two Control households who had not been
dwellings. Two households (ConB and ConC) had
responsible for paying their utility bills in their
come from situations where they were not the ones
previous households struggled to pay their
responsible for paying the utilities in their previous
utility bills.
dwellings, and therefore found it difficult to know how
•
There were no significant positive changes
their current house was performing. However, the
with regards to the Control householders’
households in ConA said that their bills had reduced
attitudes towards utility billing, with two
compared to where they previously lived, while
Control households reporting negative
acknowledging that they had become more frugal with
experiences with regards to utility billing.
their utility usage in recent years to ensure costs did not get too high. They stated:
48 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
•
There were no changes to concessions.
Additional findings from the second and third rounds of interviews The Catalyst households continued to report lower
ConE: Oh, my daughter tried a fan heater last winter and...I got a $700 electricity bill [up from an average of $400].
utility bills and being in credit at times, and were grateful for this.
CatD: Look I haven’t paid off my power bill in six months and I’m still in credit...$882 [currently in credit]
For example, while the households in ConC had managed to stay on top of their utility bills due to the pre-paid automatic billing, the ConB household’s situation had worsened by the third round of interviews to the point where they were regularly
This matches the technical data presented in Section 6, which showed that the Catalyst households had lower overall utility consumption and therefore reduced utility costs compared to the Control households. For example the: •
CatB household estimated that their utility bills were halved because of the sustainability features
•
CatA household was able to pay back the large initial electricity bill and then reported in the second round interview that they were now able to save and pay their utility bills on time.
CatB had a situation where someone turned off the solar connection after breaking into their power box. They only realised this had occurred after two bill cycles, but as it happened during winter the loss of solar did not significantly impact on this household’s ability to pay their electricity bill. The household
disconnected from their electricity and gas supply. This led to incredible stress for the household, who also had a young child (aged five at the last interview round). It was getting increasingly more difficult for this household to get their utilities reconnected, as evidenced by the requirement to seek external help (for example, from government services) with the reconnection. This situation appeared unlikely to change in the near future. However, the tenant did express some hope of reversing the situation when their child started school the following year (2016), freeing them up to seek employment.
ConB: I got up in the morning, I turned the TV on and it [the electricity] just went out and it was back on just after lunch. I had to ring up again and organise a new payment thing. And even now they’ll cut me off again in the next couple of weeks and I’ll have to do it all over again…I only owe them [the electricity company] like $500…I owe [the] gas [company] over nearly a thousand [dollars].
estimated they lost about $200 in solar feed-in tariffs In the second and third rounds of interviews, Control households reported that there were no improvements in utility consumption or concessions received. The Control households’ bills fluctuated more than the Catalyst households’ bills, and the Control households experienced more difficulty paying bills than the Catalyst households.
49 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
There was also a situation where ConA2 had not received a water bill for their first 18 months in the dwelling as there was a mix up with the water meter and what address it was connected to. This caused significant anxiety for the households. The situation was resolved early in 2015, and the tenants did not have to pay for any previous usage. The tenants
indicated they would not have been able to afford
previously enjoyed gardening, age and health issues
to pay 18 months’ worth of water if they had been
meant they were unable to do much gardening in
charged for it.
their current home. However, they did comment that they had mulched the garden to help reduce the
Objective: 2. Less reliance on town water supply
requirement for watering. They had also replaced some
Indicator: 1. Tenants self-reporting whether tank
of the plants so that they were more suitable for the
water has increased their gardening or other activities
soil and climate:
(particularly in drought conditions). Catalyst households The presence of a rainwater tank was not reported
ConA: …The plants that were in here weren’t any suitable for the soil. So I’ve got ones that are suitable for the soil and they don’t need much water.
to increase the gardening activities of Catalyst households. Only one of four Catalyst households indicated they were doing more gardening since moving into their Catalyst house. This household (CatB) took pride in their thriving front yard and ensured that it was regularly watered. The tenant of CatD was an avid gardener in their previous home and continued gardening in their new dwelling. However, they removed the plants that were in the original Catalyst garden and replaced them with native and drought tolerant plants. The other two Catalyst households did not describe themselves as gardeners. The inclusion of a water tank did not encourage them to develop an interest in gardening. IN SUMMARY: •
The inclusion of rainwater tanks resulted in one of the four Catalyst households increasing their gardening activities. One Catalyst household also continued their passion for gardening.
The issue of plant suitability in the department houses was also raised by one of the Catalyst households. Ensuring that climate-appropriate plants are put into gardens may mean tenants are more likely to engage in gardening. The households who replaced ConA (ConA2) were avid gardeners and improved the garden (see below). Their desire to create a ‘sanctuary’ of their own was motivated by their intention to try and improve the health of one of the households, who enjoyed sitting in the garden to get fresh air and relax. They did not indicate that this was enabled by having a rainwater tank; it is something they would have done regardless. The tenants of ConB stated that they would like to do some gardening but found it was not possible. This was because they deemed it unsafe to be in the backyard due to issues with neighbours throwing things over the fence. When questioned about the water tank, the tenants of ConB said it was not used to
The inclusion of a rainwater tank for the Control houses was not reported to increase the gardening activities of tenants. Households gave a number of reasons for this. For example, while the tenants of ConA had
50 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
water the garden, but it was used in summer to fill up an inflatable child’s swimming pool, which they used to help keep their young child cool.
Figure 6: ConA2’s garden development in September 2015 (source: Trivess Moore).
Control or Catalyst households. However, ConA2 IN SUMMARY: •
Three of the Control households enjoyed gardening and made efforts to improve the garden provided to them. The other four households had little interest in gardening other than to keep the weeds down. There was no indication that the presence of a rainwater tank encouraged additional
households continued to develop their garden and were encouraged by the department staff to enter it in the local gardening competition. ConA2: The Housing Commission did yeah [recommend she enter the garden into the local competition]. I think they wanted to promote the fact that a commission house can be as good as the bloke next door or whatever you know and they can be.
gardening activities.
3.2. KPI 2: Improved financial circumstance Additional findings from the second and third rounds of interviews There was no change to the above analysis from rounds two and three of interviews for any of the
51 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
Objective: 2. Improve overall economic wellbeing Indicator: 1. Changes to amount of disposable income. Changes to level of financial stress experienced. What can/cannot now be afforded?
Catalyst households Three of the four Catalyst households reported having additional money to spend on non-essential
CatD: I do go clothes shopping on occasion now instead of thinking, “Oh God, I have to go and layby that”.
items because of their lower utility bills (see Section 3.1). Similarly, the same households indicated they experienced less financial stress compared to their previous houses when it came to paying for the utilities
IN SUMMARY: •
Three of the four Catalyst households reported having additional money to save and
(as reflected in their relaxed attitudes to utility bills).
spend on things such as a holiday, funeral planning, and personal items or to financially
For example, the additional money that the CatB
support other family members.
household saved from lower utility bills was put towards a holiday to Queensland during their first year of residence. While the savings were not enough to pay for their entire trip, they felt that the savings provided a
Control households
significant economic boost compared to their previous
While the tenants in ConA reported having lower bills in
dwelling. The CatC household reported saving money
their current house compared to their previous house,
for their funeral costs ‘so the kids don’t have to worry
the difference wasn’t noticeable in terms of having
about it’. They added:
additional money to spend on other things. They stated:
CatC: I always only had about $XXXX [in my bank account]. I’ve got about [a little bit more] in my bank now so it’s really good.
ConA: Well, I haven’t got a lot of money to start with.
Other Control households provided similar responses; Furthermore, the CatC household was asked to loan money to one of their children now that they had these savings. This reflects a substantial change in their economic situation, although the additional $XXXX in their account is more than the estimated savings of $1,050 resulting from lowered utility bills (as calculated in Section 6). The tenants of CatD reported that their utility bill savings allowed them to ‘treat’ themselves, and called the additional money ‘play money’. They reported being able to buy DVDs, books and clothes.
52 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
none indicated they had more money to spend on discretionary items after paying their utility bills compared to their previous dwelling. As stated earlier, two of the households were on payment plans to ensure they could (or attempt to) pay their utility bills on time. The tenant in ConC was one of those households and found that they had budgeted to pay around $200 for electricity a quarter, but the bill was typically $140 to $160 per quarter. This surprised the tenant and left them with a credit that they said was used at Christmas to help offset the high cost of buying gifts and food. They stated:
ConC: Have I had money in? Yeah sometimes I’ve had like 200 dollars credit, like with power and if I sort of just keep it going all year and then at Christmas time I just take what I’ve got in credit…[to spend on] presents, food, just Christmas in general, you know what I mean?
IN SUMMARY: •
Control households did not report having additional money available after paying for
In addition, one of the Catalyst tenants no longer received any CentreLink benefits, which was a significant goal they had been working towards. This was achieved through a combination of reduced living costs and working more over the past year (2015).
CatD: And I no longer have to rely on any CentreLink benefits, anything like that…I don’t like being dependent on a cheque coming in every fortnight.
utility bills. •
One household that was on a payment plan found their actual usage was slightly below their predicted usage, which provided some additional money at Christmas.
When asked about how they would cope if they had to move into a standard department house, all Catalyst households interviewed in round three said they would be worse off financially and this would impact their ability to spend money on other things such as holidays or discretionary items.
Additional findings from the second and third rounds of interviews
The Control households did not report any further
All Catalyst households continued to demonstrate
changes to their financial circumstances over the
improved financial outcomes (more discretionary
lifetime of the project.
spending) in comparison to their previous dwellings. Three Catalyst households reported that their financial savings increased the longer they lived in the dwellings,
3.3. KPI 3: Improved level of thermal comfort
demonstrating that the initial savings they reported
Objective: 1. Improve thermal comfort
in the first round of interviews were not related to the ‘new home’ factor.
throughout the year
Indicator: 1. Tenants’ self-reporting of their own preferences with respect to comfort, and their thermal
CatC: I’m spending money like mad by going away, which I wasn’t doing before, I was never going away, staying places weekends...so yeah, I’m definitely better off money-wise.
comfort in the houses (less hot in summer, less cold in winter, better ventilation, comfort of various rooms, etc.). Catalyst households All Catalyst households stated that their houses
CatB: A lot reckon they can’t afford to buy food and all that thing. There’s something wrong somewhere. We don’t miss out on anything.
felt cool in summer and warm in winter. They were overwhelmingly happy with the thermal performance of their dwellings, with thermal performance matching
53 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
their preferences. Furthermore, three Catalyst households felt that the ventilation was better in the
All Control households were satisfied with the
Catalyst houses compared to their previous dwellings.
ventilation, although at least two Control households
The bathroom was mentioned as an area that
reported having a window and/or door open either to
some tenants felt was too cold, especially for older
allow fresh air in or for pets (most of the households
residents. Two households also mentioned that their
had dogs) to come in and out. This was observed on
spare bedroom was too cold in winter on occasions.
a cold day in winter when the first round of interviews
However, overall they were comfortable in the house.
took place.
CatA: …The way it’s built is pretty good like keeping the heat in. So the heater’s pretty good.
IN SUMMARY: •
Control households were less satisfied with the thermal performance of their dwellings.
CatB: They’re nice and comfortable, heat wise they are very good. They don’t use much gas for the heater. It’s very economical.
Additional findings from the second and third rounds of interviews There were no significant changes to tenant
IN SUMMARY: •
Catalyst households were very happy with the thermal performance of their dwellings
preferences for thermal comfort in either housing group. Catalyst households continued to enjoy an improved level of thermal comfort.
and were mostly comfortable in the house. •
Some households reported minor issues about the bathroom and spare bedroom being too cold on occasions.
CatB: You could feel, yourself, we’ve only been home half an hour, I just put the heater on, it’s not on very high, the place is nice and warm, so it’s pretty good.
Control households
Indicator: 2. Tenants’ self-reporting of improvements
Four of the Control households had different thermal
in thermal comfort between current and previous
comfort preferences to how their dwellings were
houses
performing. This was largely due to health issues, which are discussed in Section 3.5. They were most
Catalyst households
uncomfortable during extreme weather events. For
Three of the four households stated that their houses
example:
were performing better thermally than their previous houses (warmer in winter, cooler in summer) and
ConA: No, his condition [her husband], his blood is lower than a normal persons because of what he’s had done. So he doesn’t feel the heat and I’m sitting here perspiring and I’ve got to have a fan or something on the same as in the bedroom when he’s as warm as toast, and he doesn’t mind that, but I can’t stand it.
54 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
particularly during more extreme weather periods (as discussed in Section 3.4). In some cases improved thermal comfort had a major impact on the wellbeing of tenants. For example, in their previous house, the tenants of CatD would often leave the house in
summer and go to the shopping centre where it was
thermal comfort across each season compared to
cooler, but in their current house they were able to stay
their previous dwellings. Several Control households
at home as it was more comfortable.
believed their overall thermal comfort had declined, although this was most likely due to the impact of
CatD: I would be forever going out because I was so depressed in that house around there…and in summer I would sit down at the supermarket, you know, because it was cool… [Now] I can stay home and veg out.
IN SUMMARY: •
All Catalyst households stated that the
extreme weather events discussed below. The 2015 winter was reported to be colder than previous years, which may have impacted on reported thermal comfort.
ConF: I think it’s been the coldest winter we’ve had for a long time.
thermal performance of the Catalyst dwellings was significantly better than their previous dwellings.
3.4. KPI 4: Reduced reported level of discomfort on extreme weather days Objective: 1. Lessen the risk of harmful effects of extreme weather days
Control household Most of the Control households said they felt the thermal performance was ‘much the same’ as their last house. However, the tenants of ConB said that it was colder in winter but easier to keep cool in summer compared to their previous dwelling. They found it difficult in winter to heat only certain areas of the house due to poor design (for instance, no door on the hallway to keep the heat contained), resulting in the tenants running heaters at both ends of the house to keep the living area warm.
IN SUMMARY: •
Most of the Control households reported that the thermal performance in their current dwellings was similar to that of their previous dwellings.
Additional findings from the second and third rounds of interviews Catalyst households continued to enjoy improved
55 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
Indicator: 1. Tenants’ self-reporting on their ease/ difficulty of temperature management on extreme weather days. Catalyst households Despite the perceived improved thermal performance of Catalyst houses, tenants reported some issues associated with extreme weather conditions. The tenants in CatB installed an air conditioner using their own money so they could have more control over the indoor temperature in summer. They requested that the department reimburse them for this expense, which was agreed to. Another Catalyst household reported wanting an air conditioner, although they had not done anything to purchase or install one or to request this from the department. The other two Catalyst households were satisfied with ceiling fans and the high electric windows on very hot days in summer. CatB: Well, we both feel the heat pretty well but when it was 42 degrees outside, it only got to 29 in here…when it was three degrees below zero this was 15 degrees inside on that morning, that’s without any heaters being on, 15 degrees. So that’s good.
CatD: Well, like I said, not totally uncomfortably so…I managed.
the other expressed a desire to install one. •
Two Catalyst households reported managing on extreme hot days with a fan
CatA: I think ages ago it was really, really hot. So that’s why we brought the hose out the back [to help cool down]… It was probably when we did wish for an air con.
and high electric windows. They did not think they needed air conditioning. •
All households managed to stay comfortable on extreme cold days by
On extreme cold days in winter, Catalyst households reported increasing the temperature on their heater. One household mentioned that they sometimes also
adjusting the temperature setting on the heater and/or using a blanket to keep warm.
used a blanket to keep warm and closed the doors to the bedrooms to contain the heat in the living area. However, the other three Catalyst households did not
Control households
report taking any additional action to stay warm on
All Control households stated that in extreme
extreme cold days.
weather they found it difficult to manage the thermal performance of their house, particularly during extreme
CatA: …The way it is built is pretty good like keeping the heat in [laughs]. It was, actually it was quite easy.
hot weather. In extreme heat, three households reported leaving the house due to unbearable conditions. The tenants in ConA said they had to leave the house despite having mobility and health issues:
CatB: It’s a beautiful heater that one. I’ve got it set on 20 degrees at the moment, that’s all I set on and it is 20…but when she cools off tonight we might put it up to 22, 23 at the most.
CatD: I run the heater on low and close off the rooms other than my bedroom that I’m not using. But like I said, I don’t even put a doona on; I’ve just got two little lightweight covers and no electric blanket now, because it’s nice and warm [laughs]… The coldest I think I’ve had this, I’ve come home from being away and I’ve come in and it’s been on at about 16 degrees and that’s with no heater.
ConA: …Just go outside or go down the river for a walk with the dog because I can’t stand it, I get too hot.
ConA households, and other Control households, reported trying to use blinds to manage extreme heat as much as possible, but this was not enough to maintain comfort. The tenants in ConB tried to shut the house up as much as possible and often took cold showers to cool themselves and their young child down. Those in ConC reported having the most difficulty dealing with extreme heat. They reported
IN SUMMARY: •
Extreme hot days made it more difficult for two Catalyst households to maintain thermal comfort. In response, one of these households installed an air conditioner and
56 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
leaving the house for prolonged periods of time (up to two weeks) to stay at friends’ houses until a heatwave passed. The tenant explained how extreme heat could create health issues due to a lack of sleep.
ConC: …Or if you’re expecting a week of 40s… most of all my friends have got air conditioning so I normally sleep there for a, when it’s like, like that…I pack up pretty much, get a bag and, because sometimes you might get a whole week of 40s in Horsham, January and that, so just come and check on the place. So, which is a bit of a bummer, but you can’t have everything. I can even do like low 30s. You get through a day of it, that’s cool. But, again, once you get near 40, well you can’t literally sit in the place without… And then you start losing sleep and you end up getting, people are cranky enough when it’s really hot without going, you know.
ConC: No, I don’t turn it on till five o’clock…I just turn it on and, as I said, it takes hardly any time at all and just heats the whole house up.
IN SUMMARY: •
Control households found it difficult to maintain thermal comfort during extreme heat events, but were more able to manage during extreme cold events.
•
During extreme heat events, some Control households had to leave their house
Those in ConE reported turning off their air conditioner
for periods of time (including sleeping
at certain times of the day because of cost concerns,
elsewhere).
highlighting an added challenge for low-income
•
Control households were concerned about
households to maintain thermal comfort during
the cost of running air conditioners and
heatwaves.
heaters during extreme weather days, and sometimes turned them off during these
ConE: We were getting 40, over 40 to reach 43, 44 and 45. That was on every day from morning till night. I had to turn [the air conditioner] off at night time because my electricity bill would have gone through the roof.
On extreme cold weather days Control households undertook adaptive thermal comfort activities such as putting on more clothes and sitting under blankets. The use of heaters was a prevalent way to stay warm, although there were cost concerns about using the heater from one Control household. The ConB household needed to put on both heaters on extreme cold days to maintain the preferred level of thermal comfort. They did this despite stating they were concerned with how much it cost to run both heaters.
times.
Additional findings from the second and third rounds of interviews Catalyst households continued to report thermal satisfaction with their dwellings during extreme weather events, even though they had experienced a significantly colder (self-reported) winter (2015) than during previous years (2013–14). CatB: Well, the first winter we were here, it never got below 15 degrees [Celsius] inside… This winter’s been that cold, we’ve had it down to 11, that’s the lowest, but that’s still good, because when you can walk out and see the gazebo at nine o’clock in the morning, still covered in frost, it’s bloody cold.
They felt there was nothing else they could do due to the poor design of the house. However, other Control households found that they were able to manage
The CatC household had reduced their use of the
comfort with the use of their heaters.
heater during winter and no longer ran the heater overnight as reported during the first round of
57 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
interviews. They had also bought a small portable air
However, three Catalyst households had health issues
conditioner for extreme hot weather days, but had not
that either were or could have been exacerbated by
yet felt the need to set it up or use it. They spent $400
extreme weather conditions. These households agreed
on it second hand, but found ways to stay cool without
that the Catalyst houses had improved their climate-
using it.
related health issues significantly. For example, the CatB households were concerned about potentially
Several of the Control households reported that their
getting sick at their elderly age and stated:
thermal discomfort during heatwaves had worsened. ConC was still leaving their house during extreme heatwaves and staying at friends’ houses. They discussed how this was impacting on their wellbeing and ability to do things.
ConC: One of my friends had a device and walked in here one day and it was like 51 degrees… They [his friends] couldn’t come over, we couldn’t watch the cricket and have a beer or do stuff like that ’cause you couldn’t sit in here.
CatB: Oh, if we’re home I put it on most of the time [the heater], very economical… Both [my partner] and I have had pneumonia and I’ve had it three times and she’s had it twice, [we] can’t afford to get it again, not at our age.
The tenant in CatC had suffered from severe leg cramps in cold conditions in their previous house. They reported often sleeping in the living area of their previous home in front of a small bar heater to try and help the problem. In the Catalyst house they had not had these issues and could sleep in their bedroom.
The ConF household described how their heater was not able to warm all rooms, making maintaining thermal comfort during the coldest days in winter challenging.
ConF: Cold – the other end of the house is cold, yeah. We’ve got a little oil heater there, we put in the shower, you know, just to take the chill off to have a shower, otherwise you’d freeze.
CatC: Yeah, look I used to wake up in [my] street and oh, I’d be nearly crying with the pains right down the side of my legs and you’d try to stand up to try and start moving around and you could hardly walk and I haven’t had that in here… [here] I get hot. I end up throwing my doona back for a while and cool off, yeah, so it’s pretty good.
The tenant in CatD regularly suffered from bronchitis. They thought this condition had improved since living
Across both groups of households, extreme cold days
in the Catalyst house because of a more stable indoor
were easier to manage than extreme hot days.
thermal temperature.
Indicator: 2. Tenants’ self-reporting of their incidence of health issues on or from extreme weather days (for example, heatwaves).
CatD: Oh, look, I have bronchitis every winter, regardless of where I live. I’m just getting over a small dose of it now, but not as bad; I don’t get as chesty because I don’t go from extreme hot, you know, the other house I would have the lounge room warm but the rest of the house.
Catalyst households One Catalyst household (CatA) did not report suffering any health issues during extreme weather conditions.
58 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
The CatD health improvements had a flow-on benefit
to the health sector. While the tenant had previously been hospitalised several times with bronchitis, this
IN SUMMARY:
had not occurred since living in the Catalyst house.
•
Only one Control household reported
Similarly, the tenants in CatB had not suffered further
that they had health issues relating to
episodes of pneumonia, reducing the need to engage
temperature.
with the healthcare sector. And while the tenant in
•
They were not able to effectively manage
CatC had not sought medical assistance for their
their condition through thermal dwelling
severe cramps, this had reportedly led to improved
performance.
mental wellbeing, given that they no longer needed to worry about or manage the issue.
IN SUMMARY: •
Three of the four Catalyst households reported improved health due to the dwellings, inadvertently resulting in reduced hospital admissions, trips to the doctors and improved mental wellbeing.
•
The fourth household did not report any health issues.
Additional findings from the second and third rounds of interviews There was no change to tenants’ health during extreme weather events for either housing group. Indicator: 3. Tenants’ self-reporting on the level of comfort/amenity in the house if there is a blackout (for example, in heatwaves).
Catalyst households
Control households
IN SUMMARY:
Only one Control household indicated they suffered
•
None of the Catalyst households reported
any additional health issues during extreme weather
experiencing any blackouts during their
conditions. The tenant in ConC had bad arthritis in
first year of occupancy.
their hands, which became very painful when it was extremely cold. They had to take medication to keep the pain under control at times.
Control households IN SUMMARY:
ConC: I’ve got bad arthritis. In the ends you see those fingers are a bit bung. That’s from footy, I broke them badly playing footy and since I’ve got older they’ve gone all weird on me. So I don’t, winter’s probably not the great, because arthritis and any of that sort of stuff plays up in the winter when it gets colder… I take tablets and that for it and when it gets real, well it gets that bad that I get scripts like for Oxycontin, so you got to be sort of out there a bit with pain for them to give you that.
•
None of the Catalyst households reported experiencing any blackouts during their first year of occupancy.
Additional findings from the second and third rounds of interviews Only one Catalyst household and one Control household reported experiencing blackouts during
59 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
the three-year evaluation. None of these events lasted
Control households
more than several hours, and they did not occur during
None of the Control households indicated that their
extreme weather conditions. Tenants did not report
trips to the doctor or similar had changed compared
any adverse effects on their level of comfort or amenity
to their previous dwelling. The ConA household had a
during these short blackouts.
carer who came to their home daily, which began when they moved into their current house. This was due
Indicator: 4. Number of extreme weather days in the
to ongoing health issues that the elderly couple had
period
suffered from prior to moving into their current house.
This data was not provided as part of the evaluation.
3.5. KPI 5: Improved occupant health and wellbeing Objective: 1. Improve tenant health outcomes Indicator: 1. Tenants’ self-reporting of trips to the doctor, physical or mental health services, days spent in hospital and number of days too unwell to carry out normal activities. Catalyst households None of the tenants indicated that they had been hospitalised since living in the houses. Beyond the health issues presented in Section 3.4, there was no discussion of wider health outcomes. At least two of the three Catalyst households who had health issues that were exacerbated by extreme weather sought less medical care or intervention. Three of the four Catalyst households reported being less stressed about paying utility bills, reflecting improved mental health.
IN SUMMARY: None of the Control households reported any changes to accessing health services in their current dwelling in comparison to their previous dwelling. Additional findings from the second and third rounds of interviews While two of the Catalyst households stated they had improved health outcomes across the research evaluation, one household had experienced deteriorating health from round two to round three interviews, which reduced their overall wellbeing although this was not related to the dwelling. There had been improved health outcomes for two of the Control households, but three households had experienced deteriorating health across the final year of the evaluation (2015). Indicator: 2. Self-reported improvements in tenant health, not related to thermal comfort, since moving
IN SUMMARY: •
Three of the four Catalyst households reported improved health due to the dwellings, inadvertently resulting in reduced hospital admissions, trips to the doctors and improved mental wellbeing.
•
into current dwelling.
The fourth household did not report any health issues.
60 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
Catalyst households IN SUMMARY: Apart from the already-mentioned reduction in stress levels around paying utility bills by three of the Catalyst households, there was little evidence of further non-comfort related health benefits.
Control households
stress and anxiety around paying their utility bills. One
Two of the Control households (ConA2 and ConC)
Catalyst household (CatB) reported deteriorating health
reported an improvement in their overall health and a
between the first and third rounds of interviews. This
reduction in number of hospital visits since moving into
was due to their advanced age.
their current dwelling. The tenant in ConC had issues with alcohol previously. They were working in a family
Four Control households’ health and wellbeing had
run motel in a rural area and found that their health
worsened. For example, ConC’s tenant’s health had
went downhill.
worsened since the first round of interviews; however, their lifestyle had improved. One of the tenants in
Having private accommodation was playing a key role
ConA2 had experienced deteriorating health due to a
in their ability to reduce their dependency on alcohol.
degenerative illness; however, both tenants’ wellbeing improved due to security of tenure. ConB’s tenants
ConC: Like it was a no-win situation for years. And, you know, it was job, it was family and it just deteriorated severely, so I got a lot of time in hospital and stuff like that… I was on the Flying Doctors more than I’d like to know.
The other Control household that reported that their health had improved in their current dwelling was the tenants of ConA2. One of the tenants had been struggling with ongoing health issues for a number of years. These health challenges meant that the tenant needed to quit a high-paying job, which drastically altered the lifestyle of the tenants. The help and financial assistance provided by the department afforded them the opportunity to recover, both financially and physically.
IN SUMMARY: •
Two Control households reported improved health from having stable housing provided by the department.
had also experienced serious health issues between the round two and round three interviews, some of which were still unresolved. Three Control households reported improvements in their health and wellbeing. The health of ConD’s tenant had improved since moving in as they had addressed long-standing issues.
Objective: 2. Improve tenant wellbeing outcomes Indicator: 1. Overall life satisfaction, subjective feeling of wellbeing. Catalyst households All Catalyst households described having higher life satisfaction and an improved feeling of wellbeing when compared to their previous living arrangements. This was in part due to the improved design and sustainability of Catalyst houses, improved thermal comfort (see Section 3.3), and lower utility bills (see Section 3.1). However, some of this improvement can be attributed
Additional findings from the second and third rounds of interviews Catalyst households did not report any additional improvements to health and wellbeing since the first round of interviews; however, they reported reduced
61 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
to changes in life circumstances. For example, the tenants of CatA were previously living in a shared household and were more satisfied being in their own newly built home, although this was countered by the challenges of living on their own with a young child
for the first time (for example, the shock of a high first
tenants had become seriously unwell (see Section 3.2).
electricity bill). Furthermore, they had recently had
Having department support meant that their quality of
a second child and so their family had expanded,
life and wellbeing had improved.
which had again changed the dynamics of their life. The tenants of CatB had been living in separate units
However, three Control households did not report
previously but had wanted to live together and had
any improvement in their quality of life in comparison
recently married, which improved their life satisfaction.
to their previous dwelling. This was largely because at least one occupant in each of the dwellings had
IN SUMMARY: •
All Catalyst households reported improved
deteriorating health, which, while not related to the house, was reducing their quality of life.
life satisfaction and wellbeing outcomes since moving into the Catalyst houses. •
This was partly due to the improved design and sustainability of the dwellings,
IN SUMMARY: •
Three of the Control households reported improved quality of life, mainly relating to
in addition to broader changes in life
having secure and private tenure rather
circumstances.
than the quality, design or performance of their house.
Control households Three of the Control households were reportedly more satisfied with their lives compared to living in their previous houses. This was mainly due to having stable tenure. For example, the tenants in ConB had had their young child removed by social services. The child was returned to them when they moved into their current house. They would not elaborate as to why their child was taken away, but it may have been related to the tenant not having stable living arrangements. This tenant felt more satisfied with life because they were living with their child. Similarly the tenant in ConC described moving away from a living situation that had
•
Four Control households had deteriorating health, which meant their quality of life was not improving.
Additional findings from the second and third rounds of interviews Two of the Catalyst households continued to report improvements in overall life satisfaction, and were engaging in more social activities since the first round of interviews. One Catalyst household tenant reported a decrease in overall life satisfaction and wellbeing because they had lost the remaining sight in one of their eyes over the preceding 12 months.
led to him becoming an alcoholic. In doing so, and by securing private housing, they had improved their physical and mental health. Their overall life satisfaction had improved significantly. The tenants in ConA2 reported no longer having to stress about where to live and how to stay on top of paying rent. They had suffered significant financial challenges since one of the
62 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
CatB: Yeah, that [loss of remaining eyesight] pulls me down a bit, I do get down on that one.
Despite the tenants of ConB struggling to keep their utilities connected and having significant health issues and safety issues in their neighbourhood, they reported
being hopeful about the future. They believed that once
they had received an information pack about their
their child started school in 2016 they would be able
Catalyst house when they moved in, however, they did
to get a job and improve their financial circumstances.
not seem aware of where it was or having read it. For
They talked positively about the prospect of a holiday
example:
to the Gold Coast and Sydney. Another Control household said their overall life satisfaction had declined due to health challenges, while the other five Control households’ levels of life satisfaction remained consistent from the first interview to the last interview.
CatA: I’m pretty sure they did [give us an information pack about how to use the house] but I’m just a bit forgetful what…I’ve just got to sit down and read that then I’ll know [if I am uncertain about anything].
Similarly, CatC’s tenant was confused about how to
3.6. KPI 6: Improved utility and mobility
use the heater in the most energy-efficient way. In this
Objective: 1. Improve tenant ability to operate
instance they had taken advice from their sister rather
the house
than any information provided by the department or the
Indicator: 1. Tenants’ self-reporting of ability to
builder.
operate their current house. Catalyst households All households reported being familiar with how to operate ‘the basics’ of their Catalyst house. They knew how to use the fans and how to (and when to) operate the high electric windows. One tenant in household CatB was more knowledgeable than the other tenants.
CatC: Oh, they [the department] just said to run [the heater] on about 22 [degrees Celsius]… Just leave it running on about 22. So my sister said she leaves hers on all the time, she never ever turns hers completely off. Because they reckon once you turn them off it costs so much more to try and, it really uses the power trying to boost it up to where you had it before. So you’re using more there than if you just leave it running at the same temperature.
This tenant pointed out all of the sustainability features of the house on the tour, including things that were not visible or obvious. For example, they said things like: CatB: Oh, well this place here is so well insulated, even up in the roof, the roof itself they tell me is very thickly insulated. The ceiling here is thickly insulated. That wall there and that wall there are solid brick, and on the outside of it it’s got like refrigeration insulation and also up in the ceiling, they tell me when it gets to 35 degrees there’s a fan automatically starts up and opens a louver up there and blows all the hot air out. That’s their idea of trying to keep this cool.
IN SUMMARY: •
All Catalyst households were vaguely familiar with the basic sustainability elements of the Catalyst houses and how to use them.
•
Only one tenant was very knowledgeable about the sustainability elements of the Catalyst houses.
•
All Catalyst households remembered being provided with an information pack about how to operate the houses, but had not looked at this information recently and/or were unsure
The other three Catalyst households gave less detail about the sustainability features during the house tour
where it was. •
One Catalyst household reported issues with
and were confused when asked about some specific
using the reverse direction feature on the
features during the interview. They acknowledged
ceiling fans.
63 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
64 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
Control households Two Control households did not report having any issues with the operation of their houses (ConC, ConA2). The remaining Control households either said there were issues or issues were identified by the interviewers during the house tour. For instance, the tenants in ConB said that they had significant issues keeping the heat in the living area, and used multiple heaters to warm the room (see Section 3.3). ConA’s tenants indicated that the location of window
Additional findings from the second and third rounds of interviews There were no reported changes across the rounds of interview from the households about how they were able to use or operate their dwelling. Indicator: 2. Tenant’s self-reporting on ability to access and make use of spaces within the house. Catalyst households
locks on the tops of the windows made it impossible for them to lock or unlock the windows, as they were both elderly and disabled and could not safely reach
IN SUMMARY: •
There were limited reports from the Catalyst
them.
households on any difficulty to access and
None of the Control households had received any
houses.
make use of the space within the Catalyst
information or training on how to use their houses. All stated they would have liked some information, if only to be shown how to use things such as the heater.
ConA: I had to get one of the carers to put the heater on and show me how to use it… I would have liked somebody to show me how to use it… The heater and that and plus I didn’t know that the windows had locks on them at the top and, I mean, a lot of that is rather silly because you get an elderly disabled that the home’s designed for, and the locks on the windows are right up the top. I mean, to me, that’s very unpractical.
•
The only issue flagged by one household was that the disability bars for the bath had been put in the wrong place, making it difficult to use the bath.
Control households Two of the Control households raised significant issues concerning access and use of space in their houses, while the others did not report any major issues. The tenants in ConA lacked adequate storage space. They reported having three wheelchairs that required storage and said that they often filled the spare bedroom with a years’ worth of incontinence pads, as this is how
IN SUMMARY:
they were provided to them. The living room was an
•
Most Control houses reported challenges
important room for this household; however, they felt
operating their dwellings or operational
it was far too small. They wanted to get a sofa in the
challenges were identified by the interview team.
living room but couldn’t.
•
Most tenants would have liked to receive some basic information (for example, a demonstration) about how to use the features of their house, such as the heating and cooling systems.
65 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
ConA: Well, where are you going to put it, you tell me, you can’t… We can’t even entertain properly.
The subsequent tenants who moved into this house during the study also raised the issue of the living room, and specifically the placement of the air conditioner in the room, which they felt was not an effective location.
reported requesting an external door to be changed to a sliding door to improve the function of their house. This change was made by the department and the tenants were very happy with the improvements to their dwelling. They reported using their outdoor area more frequently as a result of this change.
The ConB household only used about half of their house and did not use their backyard at all due to safety concerns with the neighbours. They had a major mice infestation in the back bedroom. The tenants described how the mice had taken over the room and done significant damage to the room. It was unsafe
ConA2: I’m out there every morning of every day. That’s my morning cup of tea and in the afternoon when X is having a sleep I’ll make a cup of tea and I’ll sit out – I do all my thinking out there. It’s like another room and it’s an extension to the house, its fantastic isn’t it? A peacefulness was what I was trying to create.
for the tenant’s child to use it as a bedroom, so it was not used at all. The mice infestation was caused by a
Indicator: 3. Features most liked about their current
large rubbish pile in their neighbour’s yard. The tenant
house.
had sought help from the department in dealing with the mice, but had been told it was a tenant issue. They
Catalyst households
had tried putting down bait, but this had not helped.
Catalyst households all reported a number of features that they liked about their current houses. These
IN SUMMARY:
included the open plan layout, ability to zone off areas
•
Three Control households had significant
for heating and cooling, double-glazed windows,
issues with access and use of space, mainly
solar panels, rainwater tanks, toilets with inbuilt hand
concerning sufficient storage space, location
basin, size of the bedrooms and bathrooms, built-in
of air conditioning and heaters and their ability
storage, sensor lights, solar lights down the driveway
to use outdoor space.
and the yard and carport area. Three of the Catalyst households took great pride in their dwellings and two
Additional findings from the second and third rounds of interviews The tenants in CatB had some external works undertaken between the second and third rounds of
referred to their houses as ‘palaces’. All spoke very positively about the design.
CatA: Yeah, it’s new. It’s bigger. It’s a lot better… It’s pretty spacious the way it’s all built together
interviews to remove an external step down to the carport. One of the tenants had a fall on this step so the department regional office organised for the step to be removed and a ramp installed in its place. The tenants were very pleased with the quick response to their request and the final changes made. During the third interview, the tenants in ConA2
66 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
CatC: The design’s great. People walk in and they’re like, “Oh my God, I can’t believe this. This is commission, no it can’t be commission, you know like…” And I’m like, yeah it is. I love the way it’s set out and it’s just, it’s roomy, it’s not over big, but it’s still roomy enough, you know what I mean. The bedrooms are good sizes.
Tenants also liked the airlock, windows and locks on the windows. A key feature was that the windows could be left open a little bit while remaining locked.
CatD: Whereas here I can throw everything open and I love that little airlock [laughs]. That works so well, because I notice the difference when I come home, you know, if it’s been cold, it’s still nice and, it’s cold out there but once you get in here it’s lovely and warm.
Bathroom size was also highlighted as a positive feature by several households. CatC: I’m like, wow that’s going to be good when I get a wheelchair one day. I’ll be able to get into that shower.
steps, the feeling of the house being of good solid construction, having their own privacy and having a house that is easy to maintain. ConA: There was no steps here, it’s lovely…I feel really at home here.
ConA2: It’s just home.
All Control households appreciated the large size and layout of the bathrooms:
ConC: Everyone laughs about it (the size of the bathroom). They reckon they got the lounge room mixed up with the bathroom.
The water-saving toilet with inbuilt hand basin was also a key feature: IN SUMMARY: CatD: I must admit, there’s one thing that I do like, is the water-saving toilet. You can actually wash your hands.
•
Control households did like some elements of their dwellings, although they did not speak as positively about their houses as the Catalyst households did.
IN SUMMARY: •
•
Positive features for Control households
Catalyst households all spoke positively about
mainly related to having their own space and
a number of features in their current houses.
something that was easy to maintain.
Control households There were several features mentioned by Control households that they liked (and disliked) about their current houses. For example, while one household said they disliked the lack of living room space, another said the space was a real bonus compared to where they previously lived. Other positive features noted by Control household tenants were having a house all on one level with no
67 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
Additional findings from the second and third rounds of interviews The features that households liked most about their dwellings remained consistent throughout the interviews across both groups of households. It remained clear that the Catalyst households liked their dwellings more than the Control households did. Indicator: 4. Lessons, improvements and suggestions (features disliked) for design of future department houses.
Catalyst households
living area were multi-directional – to make use of
While all Catalyst households liked their houses, there
both summer and winter conditions. However, the
were some suggestions for improvement. These
switch that needed to be changed from summer
include improving:
to winter mode was on top of the ceiling fan. This
•
cooling options (for example, installing ceiling fans
meant that tenants needed to contact the department
in the bedrooms and an easier way to reverse the
maintenance to do it, and they could take up to
fan direction)
two weeks to respond, by which time the weather
lighting in parts of the house, including dimmable
conditions may have changed. This tenant suggested
lights in some areas
that a remote switch could be set up for this. Given
ceiling fan placement in the bathroom (placed
that the other Catalyst households did not mention
above shower)
this, it is likely that they were not aware about the
•
gap reduction around internal doors
seasonal use of the fan.
•
water tank access (individual water tanks)
•
driveway layout (restrict access for cars to
Lighting was a concern for two of the Catalyst
residents only)
households. One did not use the ceiling fan lights,
cracked tiles (grouting), cracks in concrete and
saying they did not like the ‘orangey yellow colour’.
• •
•
cracks in internal and external walls •
grass and plants in the backyard
•
lock positions on windows
•
shade covering for the pergola.
CatA: It doesn’t light up the room so much. So I don’t see the point of turning it on.
The other household said that as one of the tenants Providing improved cooling options was the most
was legally blind but had a slight amount of vision,
significant issue raised (see Section 3.4). While tenants
the low brightness of the lights was not acceptable
stated that the houses stayed cooler in summer than
for them. They had tried to replace a few light bulbs,
their previous dwellings, one household had an air
but this had not helped. In this instance it was more a
conditioner installed, with another stating they would
concern for their situation than necessarily something
like one. In addition, one household mentioned that
that should be considered for future department
ceiling fans in the bedrooms would help during extreme
houses.
heatwaves. The placement of the ceiling fan in the bathroom was CatB: Well, see this isn’t insulated here [bedroom] like that other room [living room] is and very often you, we could leave the air conditioning going but a lot of the time you don’t need an air conditioner. But if you’re laying in bed it can still get a bit hot…and we just got these, just little pedestal fan that, we’ve only had to use them a couple of times and this is the other one.
One tenant also pointed out that the fans in the
68 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
raised by two Catalyst households. It was not over the shower but in the middle of the room, making it mostly ineffective. The tenants reported having to open the window to ensure that the steam could escape. CatC: So all the steam, it runs all down the wall and it’s high to get, you have to get up on a chair to try and wipe it and it’s a bit, yeah I don’t like getting up on high things you know to have to clean. So they were going to see about putting a fan, but I haven’t heard nothing more about it…
The sharing of rainwater tanks was also raised as a
Control households
significant issue by three of the Catalyst households.
Control households also made several suggestions
Some tenants felt they were not getting the full benefit
for improvement, including making sure there were
of the rainwater tank because they were sharing it with
appropriate drought-tolerant plants in the garden,
another household, which used more than their ‘share’
providing a larger living area, providing locks on
of the water.
windows at an appropriate and accessible height, providing heaters in the bathroom, providing a door in
CatD: So that and perhaps maybe the rainwater tank, which sounds silly, but because we share the tank I’ve got, so I think [CatC] has the same problem; the two bigger units, sort of they use most of the rainwater, sounds a little bit, but because they’ve all got gardens whereas [Cat-C] and I don’t, so it would have been probably more practical for us to share a rainwater tank.
the hallway and providing air conditioning. Additional findings from the second and third rounds of interviews During the third round of interviews, one of the Catalyst households suggested improvements to the bedroom windows, in particular the way they open. The fact that
The carport and driveway layout caused issues for
it was a sliding window rather than an awning window
one tenant, who found it difficult to enter and exit their
meant the window could not be left open if it was
parking space at times. This seemed to be due to non-
raining. This was only a minor concern for the tenants.
residents parking in the driveway when visiting their friends. This is something that could easily be fixed by making access to the driveway for residents only. Gaps around internal doors were mentioned as an issue that could unnecessarily cool bedrooms.
CatB: The only trouble is, if it’s raining at all, you can’t open these up, the rain comes straight in.
During the third round of interviews another Catalyst household discussed the issues regarding the reverse direction switch located on the ceiling fans. Their
CatA: …Sometimes I think under the doors a bit of cold air comes under make it a little bit cold after a while.
One household (CatB) said that the placement of the high electric windows were on the wrong side of the house and that a designer with local knowledge should have known that during summer the hot wind would just blow straight in, rather than venting warm air out as intended. IN SUMMARY: •
Catalyst households suggested a number of improvements for future department designs.
69 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
solution was to get one of their children to change the direction switch when they visited.
3.7 KPI 7: Improved tenant engagement and experience in managing ESD and climate change-related aspects Objective: 1. Increase tenants’ stated capability and confidence in making positive behavioural
decisions regarding their utility bills costs, energy consumption management and environmental footprint Indicator: 1. Tenants’ self-reporting if they can monitor and impact their consumption and bill expenditure. Empowerment.
Catalyst households All Catalyst households reported monitoring their utility consumption and costs across the first year of occupation in the houses. For three of the Catalyst
ConC: Pretty much. Because I’m on a disability pension, I get 30 dollars taken out every fortnight for electricity and 20 dollars every fortnight for gas.
households this stemmed from their appreciation of having such low bills. There was no evidence of a rebound effect where they had become lax in how they used resources; they were still keen to be as efficient as possible and capture maximum economic savings. The fourth household (CatA) had moved out on their own for the first time and received a large initial electricity bill. From that point forward they monitored their usage more carefully to ensure that this situation
IN SUMMARY: •
Control households reported ‘keeping an eye’ on their utility usage and bills.
•
Control households appeared to take more actions to reduce their utility usage if they felt their bills were getting too high, in comparison to Catalyst households
did not happen again. As discussed previously, Catalyst households became more relaxed about
Additional findings from the second and third
receiving their utility bills over time, as the tenants knew
rounds of interviews
the bills would be low, if not in credit.
Catalyst households still reported keeping an eye on their utility usage, although they had become more
IN SUMMARY:
relaxed about this over time as they realised they had
•
All Catalyst households reported monitoring
low utility bills. This did not translate to an increase in
their utility consumption and costs across the
utility consumption, as shown in Section 6. Control
first year of occupation and continued to try
households had a similar level of monitoring and
and ensure they used resources efficiently
engagement with reducing their utility consumption
where possible
throughout the research. The technical data shows that most households (across both housing groups)
Control households All Control households reported ‘keeping an eye’ on their utility consumption and bills. Most Control households also said they tried to be efficient with their utility consumption to keep bills low. For example, the tenants in ConA said they did not use the ceiling fans in the summer if they thought their usage was getting too high (even though this is a very economical way to keep cool). Overall, Control households reported using energy sparingly for most things (although not in terms of TV use). ConA: Yes, I try to do without the fans and things as I say in the summer, if I think it’s going up too high.
70 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
were using less than the average and the department Standards, meaning there were less opportunities for additional savings. Indicator: 2. Typical use of appliances, showers, heaters, coolers, hot water, lighting, etc. Catalyst households Three of the four Catalyst households had brought most of their appliances from their previous houses. One household had to buy everything when they moved in and did this over a period of time. Households did not report any changes in how they watched television, did the laundry or took showers
since moving into a Catalyst house. However, there
Control households
were changes in lighting use and the use of heating
The tenants in Control households reported using
and cooling. Most households (apart from CatB,
appliances in much the same way they had previously.
with a blind tenant) said they used the lights less
The tenants in ConB and ConC had to source all
during daylight hours, as there was more natural light
appliances (either new or second hand) when they
compared to their previous dwellings.
moved in, as they did not own any due to previous living situations. The other households brought many
CatD: Yeah, you don’t have to have your lights [on] most days. They are that little bit sunnier and I’ve put these ones up. It’s really nice in here. Just really light.
appliances from their previous dwellings, although some did buy new or second-hand appliances after they moved in. For example, tenants in ConA bought a new glass oven to make cooking and cleaning it easier. The two households that bought all their appliances
As discussed in Sections 3.3 and 3.4, the tenants
recognised that some of the second-hand appliances
were generally happy with the thermal comfort of the
they acquired may not have been the most energy
dwellings in both summer and winter. In winter, tenants
efficient. However, these households were also the
spoke about not needing to use the heater for as long
same two that were on payment plans for their utilities,
to warm the house up, and when warm the house
and therefore could not afford new appliances.
stayed comfortable for longer in comparison to their previous house. In addition, they were able to keep
As shown in Table 2, only the tenants in ConB had no
cool without air conditioning, although the tenants in
form of mechanical cooling (either an air conditioner
CatB had installed an air conditioner for extreme hot
or ceiling or pedestal fans). Four of the Control
days.
households stated they would like to improve the cooling appliances they had.
CatA: I’ll just turn the heater on for a couple of hours and then turn it off.
CatD: Like [the heater’s] on today on low; I’ll sort of run it on low during the day and then sort of, I don’t know, after tea if it’s still nice and warm I’ll turn it off for a while.
IN SUMMARY: •
Catalyst households reported a reduced need for daytime lighting and heating and cooling.
•
Households’ television use, laundering and showering remained consistent in comparison to their previous dwelling.
ConC: I think me fridge is the actual power killer because I was fridgeless and no one could believe it because I bought a TV before the fridge, they were a bit, that was a bit of a joke. And then me friend rang up and one of his friends had a fridge he wanted to give away so we went and got it and took about eight men to lift it so I think it juices up, it’s pretty historic I think.
ConA’s tenants were not able to use the clothes line due to it being too high for them to use (elderly couple), and because their washing requirements had more than doubled due to recent health changes (one of the tenants suffered from incontinence). They used the washing machine and a clothes dryer a lot more than they had in their previous dwelling.
71 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
ConA: I have trouble hanging them on the line. So I generally put them in the dryer… Sometimes I do three [loads] in one day… They’ve lowered it [the clothes line] but it broke once because I had so much washing to put out you see with him because sometimes he might have four changes during one day and everything’s got to be washed. You can’t leave it laying around the house because of the infection.
Showering practices were reportedly similar to previous dwellings in terms of frequency and length for those without health issues. For example, the tenants in ConB took long showers, up to 20 minutes, but this was something they had always done. However, the tenants in ConA took more efficient showers due to them requiring carers to help them shower.
Additional findings the second and third rounds of interviews Tenants across all households did not report any significant changes to the way they used appliances since moving into their houses, except for those in ConB, who now were now washing clothes on a cold wash cycle after the home advisory tour visit by the research team in early 2015. Indicator: 3. Tenants’ use of composting and food production. Catalyst households IN SUMMARY: •
None of the Catalyst households engaged in composting or growing their own food,
ConA: [Showers take] only a few minutes. They’re very efficient… Now it’s winter we’re in and out quickly… You do not linger in the shower because they [carers] only have half an hour and they got to go to the next person.
although the tenants in CatA did express a desire to grow some basic vegetables.
Control households The tenants in ConA had experienced a significant increase in their use of the TV. This was because
IN SUMMARY:
recent health issues meant that the tenants were less
•
mobile and therefore spent more time watching TV. The
of their own fruit or vegetables or did any
other Control households used the TVs as they had in their previous houses.
None of the Control households grew any composting.
•
The tenants in ConB said they were thinking about setting up a compost bin, but were not
ConA: Well, since my incapacity I’d have it [the TV] on all day, otherwise there’s nothing else to do for me… Before my illness I was very active, now I’m not, the reverse.
sure how to go about it. They thought they might ask the council what to do. The tenants in ConA said they disposed of most of their scrap food by giving it to their dog or their
IN SUMMARY: •
carer for her chooks.
Control households’ use of appliances was similar to their previous dwellings, except where tenants experienced changes to their health.
72 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
Additional findings from the second and third rounds of interviews None of the households were growing their own food
or undertaking any composting. The one household
The tenants in ConC said they did not use the
that did undertake some form of composting in round
rainwater tank for the garden, but liked to use it for
one, ConA, moved out of the home during the study.
drinking water. They did this because they said it tasted better, rather than for any environmental reasons.
Indicator: 4. Tenants’ interest in their environmental footprint. Change in attitude towards environmental issues. Beliefs with respect to achieving energy and water conservation. Catalyst households IN SUMMARY: •
Catalyst households reported trying to reduce their utility consumption where possible. They indicated this was partly due to broader environmental considerations, but like Control households, they were more concerned with
ConC: Sometimes like I get a jug of water and that out of it (the water tank)...To drink...Tastes better actually.
It was not evident that any Control households’ attitudes to the environment had changed because of the houses. They were more concerned with lowering their living costs, which had an indirect environmental benefit. IN SUMMARY: •
reduce their impact on the environment,
reducing their living costs. •
although this was likely to be more about
There was no evidence that living in a
controlling living costs than broader
Catalyst house had raised the tenants’ environmental awareness or concern for energy or water conservation. Control households
Most Control households said they tried to
environmental concerns. •
The Control houses had not significantly changed these households’ attitudes towards the environment.
Most Control households said they do try to do things for the environment where possible. For example, they said they try to use their heater less, turn of lights when not required and recycle their waste through the recycle bin. The tenants in ConA had put woodchip mulch on their garden and replaced the plants with native drought-tolerant plants to reduce water consumption. Those in ConA2 had expanded the drought-tolerant garden since moving into this house. In addition, the ConA household had purchased a small glass oven to reduce energy consumption and because they were easier to clean: ConA: One of those round glass ovens that I use because I find that saves energy because it cooks a lot quicker and it’s easier for me to wash than having to do a whole oven.
73 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
Additional findings from the second and third rounds of interviews Engagement with environmental concerns remained similar throughout the research for the Catalyst households, although the tenants in CatA became less engaged with the sustainability features of their dwelling. This may be in part due to the fact they were busy with two young children. Control households became less engaged with environmental considerations across the research period, primarily because they were more concerned with maintaining comfort and being able to pay their utilities.
Objective: 2. Use of composting
Indicator: 1. Tenants’ self-reporting on satisfaction
Indicator: 1. Volumes of waste to landfill, recycling
with the neighbourhood compared to their previous
and compost, as self-reported by tenants.
place.
Catalyst households
Catalyst households Two Catalyst households spoke directly about
IN SUMMARY:
their satisfaction with the neighbourhood.
•
None of the Catalyst households engaged in
Both were similarly or more satisfied with their
composting activities.
current neighbourhood than with their previous
There was no evidence that Catalyst
neighbourhood, apart from issues with one specific
households had reduced the amount of
neighbour. The tenants in CatB stated that:
•
waste they sent to landfill or to be recycled.
Control households IN SUMMARY: •
None of the Control households engaged in composting activities, although one household did feed food scraps to their dog
CatB: Well we’ve had no worries at all. It’s very quiet...Very quiet here but with all the insulation and that you don’t hear anything anyway...
The tenants in CatC were more satisfied with their new neighbourhood. When asked about their previous house they said:
or their carer’s chooks. •
There was no evidence of a reduction of general waste or recycling in comparison to their previous dwellings.
•
CatC: The house was okay but the area was like wow terrible [laughing]...If the house had of been anywhere else it would have been fine, yeah...I had a guy murdered out the front of my place.
Two households had significant issues with their bins being collected on a regular basis.
IN SUMMARY: •
Additional findings from the second and third rounds of interviews
Two of the Catalyst tenants reported an improved local neighbourhood in comparison to their previous dwelling location.
There was no evidence of any changes to any households across the research period. There were no further mentions about issues with rubbish being collected by the two Control households.
KPI 8: Improved neighbourhood satisfaction and safety Objective: 1. Improve satisfaction and perception of safety levels of current neighbourhood compared to previous
74 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
Control households Three Control households (ConB, ConC and ConD) had issues with their neighbourhood satisfaction and were all located near each other. The tenants in ConB were reluctant to talk about the street, but revealed they had issues with their neighbour dumping rubbish in their own and their neighbours’ yards. When they sought help from the department they were told that
‘you can’t tell someone how to live in their own home’.
Additional findings from the second and third
This tenant put in a request to move. They also had
rounds of interviews
issues with their bin not being collected for several
Catalyst households reported continued satisfaction
months. They didn’t know why this happened, but
with the neighbourhood during the research period.
assumed it was because they were not putting the
This satisfaction increased when a challenging
right things in the right bins. However, they had not
neighbour moved out and when a ‘drug dealer’s’
received any information on what they had done wrong
house across the road burnt down earlier in 2015.
or how the issue could be resolved. The Control households that had initially raised amenity There was also a lot of late night activity in the street,
and safety concerns regarding their neighbourhood
which meant it was difficult for the tenant in ConC to
repeated these throughout the interviews, while
get to sleep early. They would often sit watching TV
households that reported a satisfactory neighbourhood
in the evenings with all the lights off so that no one
continued to report the same. The tenants in ConA2
would approach the house, as there had been several
had stated in their first interview that they had no
incidents where neighbours had tried to engage the
intention of getting to know their neighbours, but
tenant late at night. This tenant also reported an issue
by the third round of interviews they started talking
where children from the neighbourhood had jumped
positively about knowing their neighbours and had
over the fence and turned the gas off (affecting the hot
swapped phone numbers in case anyone needed help.
water supply). It took almost two weeks for someone from the department maintenance to come to the
Indicator: 2. Tenants’ self-reporting on safety in the
property and identify the problem was (the tenant did
neighbourhood compared to their previous place.
not know that the gas had been turned off). Catalyst households ConC: There’s a lot of sort of drug deals that go on here later at night, so there’s always cars going up and down from pretty hectic, from probably 11 [pm] to one, two [am]...this is the gun street.
The other Control households were positive about their neighbourhoods. ConA: Well it’s close to the shops. The river is only 5 minutes away so that is ideal for us. We go for walks in the afternoon.
Catalyst households were mostly satisfied with their perception of safety in their current neighbourhood. However, this was negated by three of the Catalyst households having a safety issue with one of the Catalyst households. This household was reported to play loud music until 3.00 or 4.00 am, and would often only stop when the police were called. One of the tenants of that household had physically destroyed one of the other household’s doors after they had said they were going to call the police because of the noise.
IN SUMMARY:
IN SUMMARY:
•
•
•
Three Control households live in a street which
Catalyst households felt safer in their current
is reported to be noisy and untidy.
neighbourhood compared to their previous
The other Control households are all relatively
dwellings.
satisfied with their neighbourhoods.
75 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
•
There was a safety concern with one Catalyst
household creating excessive noise and threatening violence.
Control households The same cluster of households (ConB, ConC and ConD) raised concerns with safety in the neighbourhood. The tenants in ConB and ConD felt the need to always lock everything. They often woke up to hear screaming or fighting in the street. The tenant in ConC stayed up late watching TV to drown out the
CatD: I don’t like to hang it on the neighbours up the front there, but you know sometimes you can be a little bit nervous here. But then I have good door locks too.
The cluster of Control households that had concerns about safety in their neighbourhood repeatedly raised these issues during the subsequent interviews.
ConC: If you’ve got the light on you’ve always got some clown around you knocking at your door wanting something...They’re normally off their head or full of something and they’re asking for cigarettes or money or stuff.
noise from the street. In addition to the screaming and fighting, they said noisy cars and drug deals were a significant issue. While they said they had lived in more ‘wild places’, they still had concerns regarding the safety of the street.
ConC:...there’s probably 50, 60 police cars a day going past...Sometimes it gets a bit intimidating...a bloke just up the road went mad with them (the police), with a samurai sword about three months ago so that didn’t help. So they’re [the police] not happy campers.
ConD: You notice people have been in your house, because they leave fingerprints or muddy feet, have slid down the manhole and tried to open the door.
ConB: My son doesn’t ever sleep in his room because they’ll [people trying to break in] be coming through my back [entrance], through the back and I felt a little bit uncomfortable. He’s, you know, a little boy, you know what I mean? Now his been in my room for about three years because I don’t feel safe having him down in his own room.
3.9 KPI 9: Improved life circumstances IN SUMMARY: •
There are a cluster of households who
Objective: 1. Positive changes in tenants’ life circumstances
experience ongoing safety concerns in their
Indicator: 1. Tenants’ self-reporting on changes to
neighbourhood.
their life circumstances since moving into current dwelling.
Additional findings from the second and third rounds of interviews Once the tenants of the Catalyst household who had caused safety issues for the other three Catalyst households had moved out, perceived levels of safety improved.
76 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
Catalyst households All four Catalyst households experienced changes to their life circumstances since or because of moving into the Catalyst houses. The tenants in CatA were living in their own home for the first time, having shared their previous house with friends. They had one child when they moved in, and their second child was born
just prior to the first round of interviews. The tenants
The tenant in ConC had turned their life around by
in CatB had been living in separate places but had
gaining a private and permanent place to live. Before
wanted to move in together, which is why they were
moving into their current dwelling, this tenant was a
offered the Catalyst house. They have since married.
self-described alcoholic struggling to overcome their
The tenant in CatC started studying with the aim of
addiction. They reported now being on top of this
getting a qualification to help them find work. The
condition, and believed that this was largely down to
tenant in CatD had been able to move away from a
having a roof over their head.
neighbourhood they felt unsafe in, therefore improving their life circumstances. These changes were in part enabled by the houses, although may have occurred in any form of stable
ConC: Yeah, it has [improved]. I’ve been pretty good with, can’t say I’ve given up alcohol, but it’s decreased like major, majorly...Because I’ve got me own space...[it’s a] big change to what I was doing.
tenure. However, the other social, financial and health benefits experienced by Catalyst households due to their unique dwelling assisted in improving their life circumstances.
IN SUMMARY: •
Three of the Control households reported experiencing positive changes to their life circumstances in their current dwellings.
IN SUMMARY: •
Each Catalyst household experienced positive
These included being reunited with a child and helping to address health issues.
life changes since moving into the Catalyst house, including having a second child, getting married, starting studying, gaining more hours of employment and moving away from an unsafe neighbourhood. Control households Three of the Control households experienced positive changes to their life circumstances since moving into their current dwellings. The tenants in ConA2 reported an improved quality of life because they had moved away from a deteriorating health and financial situation and were now able to concentrate on improving other health outcomes. After gaining ongoing tenancy, the main tenant in ConB was reunited with their child, who had been taken away for a period of time by social services. The tenant described this as a ‘good day’.
77 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
Additional findings from the second and third rounds of interviews Three of the Catalyst households continued to experience positive changes in their life circumstances, although this was tempered by the tenants in one of these dwellings suffering deteriorating health, and another tenant’s ex-husband and pet passing away. Due to deteriorating health, the tenants in CatB had started to change things that they regularly did to fit better around their changing health. For example, instead of going to Queensland for a holiday, they had started taking holidays closer to home. The Catalyst tenant who had started studying postponed their studies part way through because an opportunity for more work came up. This increased work led to a reduction in benefits they received from the department, and made them more independent
and financially secure. One Catalyst household had
Catalyst households
started engaging in more social activities, including
Two of the Catalyst households (CatB and CatD) spoke
rock ’n’ roll dancing (including participation in
of their relationship with the department regional office
competitions), and was finding the increased exercise
in a positive light. They felt comfortable either calling
beneficial for their health. They also bought some pet
the office or attending in person to discuss any issues
birds (in addition to already having a cat and two dogs).
they had. They knew the staff by first name, and were
Two of the Control households continued to experience
happy with the level of service and response they
positive changes to their life circumstances since
received from the regional staff. The tenants in CatC
moving into the Control houses, mainly resulting from
said they had not had to engage with the department
improved health outcomes coupled with security of
since they moved in, and had some initial issues with
housing. Other Control households either had no
the solar panels addressed. The tenants in CatA had a
change or negative changes as explored previously in
very limited relationship with the department. This may
this report (see Section 3.5).
have been because they were a young household and had little experience living in social housing and were
One Control household reported several deaths in
unclear about what they could or could not engage
the wider family between round two and round three
the department staff about. There were a number of
of the interviews, which negatively affected their life
comments about little elements around the house (for
circumstances.
example, wanting grass in the backyard) and they said they knew they should speak with the department, but
The types of improvement differed between the two
had not done so.
groups. The Control groups’ circumstances related to their basic needs, such as housing security and medical attention. The Catalyst groups’ circumstances represented improvements to their lifestyle and wellbeing.
3.10 KPI 10: Improved relationship with the department
Control households IN SUMMARY: •
relationships with the DHHS regional office. •
Indicator: 1. Tenants’ self-reporting on changes to their relationship with the department (housing) since moving into their current dwelling. And Indicator: 2. Tenants’ self-reporting on changes in their ease and ability to contact the department about questions or issues since moving into their current dwelling.
Three of the Catalyst households reported that they were comfortable to contact the DHHS regional office if they required anything
Objective: 1. Positive changes in the relationship tenants have with the department (housing)
Two of the Catalyst households had improved
at all. •
One of the Catalyst households was not comfortable to contact the DHHS regional office as they did not want to cause any issues.
The majority of Control households did not describe their relationship with the department regional office in the same way as the Catalyst households. They were less positive about their engagements and tended to contact the department regional office with complaints
78 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
or requests. They were often unsatisfied about the response. For example, the tenants in ConA had to contact the department about modifying the shower for mobility requirements. The glass shower door
ConC: No, you sort of try not to rustle any feathers or anything like that. Got four walls and a roof and that’s, it’s pretty hard to get accommodation in Horsham at the moment, believe it or not.
was removed and a strip placed at the bottom of the shower to stop the water leaking onto the bathroom
were like this. Two of the households (ConA2 and
floor. However, the water still leaked and the tenants
ConF) were happy with their engagement with the
were advised that the department thinks the existing
department and the response they received to any
solution was sufficient. While this did not appear to
issues. For example, the tenants in ConA2 spoke of
negatively affect the tenants’ relationship with the
how they were allowed to repaint the interior of the
department, it did not improve it.
house before they moved in, which meant they could make it feel more like their own place.
Much like the tenants in CatA, several Control households did not want to cause any ‘issues’ or draw attention to themselves. For example, the tenants in ConB seemed reluctant to report anything to the department or push the issue about the mice
ConA2: When I approached the Housing Commission they were absolutely fantastic. They treated us with a great deal of respect and understanding and consideration which I thought was amazing.
infestation after being told it was their responsibility. This tenant appeared to be cautious about ‘causing trouble’ in case they were removed from the house or
IN SUMMARY:
faced having their child taken away again.
•
Four of the Control households reported having either negative relationships with the
Those in ConC similarly did not want to cause any non-
department regional office or were cautious
essential issues with the department in case they were
not to engage with them too much in case
removed from their house. However, the tenant did
they ‘rustled any feathers’. This had some
chase up with maintenance several times to get their
tangible impacts on their ability to live in their
gas connection looked at. This tenant was repeatedly
dwellings in some cases.
told that the person would be there by the end of the
•
Two of the Control households reported
next business day. However, on several occasions the
positive relationships with the department
person never showed up. This meant that the tenant,
and were comfortable engaging with the
who had stayed home to make sure they were there
department regional office if and when
when the maintenance person arrived, missed three
required.
appointments with their drug and alcohol councillor.
•
Four of the Control households had concerns
This was flagged as a significant issue. Furthermore,
about contacting the department regional
after stating an air conditioner would be great so they
office about any issues they had. They felt
could stay in their own home during heatwaves, when
that they did not want to cause any issues in
asked if they had contacted the department to request
case they jeopardised being able to stay in
one be installed the tenant said:
their house.
Not all experiences or interactions with the department
79 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
Additional findings from the second and third
•
rounds of interviews
had an air conditioner, while the other Control
The Catalyst households continued their mainly
houses did not. It was not clear why this was
positive engagement with the the department regional
the case.
office. The tenants in CatA became more comfortable engaging with the department regional office after the first round of interviews, and described their interactions with the department regional office as improving. The Control households continued to experienced mixed relationships with the department regional office over the lifetime of the project. Four of the Control households reported that they were not comfortable contacting the department regional office if they
Additional findings from the second and third rounds of interviews One Control household (ConB) had been struggling to get safety screens installed on their windows and had found the department regional office to be unreceptive to this request, which became an increasing safety concern for the tenants.
3.11 Household summary
needed anything, as there was a perception that they
ConB: Like, I asked them [the department regional office] to change them security screens and they said they can’t…[so] I got my mate to bring a drill in. Every single window in this house is screwed in. So they can’t, like that one I’ve got just there so I can open it a little bit. But the rest of them, they can’t open at all. And that’s pretty bad because I was talking to my mate about it the other day, if there’s a fire inside the house, me and Cody are stuffed and that shouldn’t be the case, when they should be doing their jobs properly.
may risk their accommodation if they were seen to be complaining. Indicator: 3. Tenants’ self-reporting on changes in the services and privileges provided or afforded to them from the department since moving into their current dwelling. Catalyst households
households, although one house (ConA/A2)
In summary, there were some clear differences between the Catalyst and Control households. Some
IN SUMMARY: •
Only one of the Catalyst tenants (CatB) reported being afforded any privileges since moving into their Catalyst house. This was when they paid for the installation of an air conditioner and were subsequently reimbursed by the department.
of these were due to the dwelling (for example, improved thermal comfort), while other elements were related to personal circumstances (for example, health). Overall the Catalyst households were found to address more of the KPIs compared to the Control households (see Table 7). Some key findings from the Catalyst households were that they: •
Control households
significantly lower utility costs •
IN SUMMARY: •
There did not appear to be any additional services or privileges provided to any of these
experienced lower utility consumption and were able to pay utility bills more easily with reduced stress
•
had additional money available for discretionary items and experiences, such as going on a holiday or buying clothes
80 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
•
•
demonstrated an improvement in their thermal
and demonstrated an over-reliance on mechanical
compared to their previous dwelling, translating to
cooling (air conditioning) to stay cool in summer,
fewer trips to the doctor or hospital
including one household that had to vacate their
were better able to adapt during extreme heat
house during prolonged periods of heat
reported overall improvement in life
living on the same street
satisfaction, perception of neighbourhood safety
related to the provision of secure tenure)
In comparison, Control households reported the KPIs in comparison to their previous dwellings. In comparison to Catalyst households, Control households:
•
had more issues paying their utility bills on time
•
reported lower satisfaction with thermal comfort and demonstrated an over-reliance on mechanical cooling (air conditioning) to stay cool in summer, including one household that had to vacate their house during prolonged periods of heat reported significant neighbourhood issues and safety concerns in one cluster of three households living on the same street experienced ad hoc changes to improved life circumstances unrelated to their dwelling (but related to the provision of secure tenure)
•
experienced lower satisfaction with their relationship with the department regional office.
In comparison, Control households reported limited and less consistent improvements across the KPIs in comparison to their previous dwellings. In comparison to Catalyst households, Control households: •
experienced ad hoc changes to improved life circumstances unrelated to their dwelling (but
limited and less consistent improvements across
•
•
experienced improved neighbourhood
office.
•
reported significant neighbourhood issues and safety concerns in one cluster of three households
and relationships with the department regional •
•
being able to stay at home during such events circumstances, life satisfaction and wellbeing •
reported lower satisfaction with thermal comfort
comfort and health during extreme weather events
without the use of an air conditioner, including •
•
had more issues paying their utility bills on time
81 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
•
experienced lower satisfaction with their relationship with the department regional office.
Table 7: Summary of household findings against evaluation KPIs across each round of interviews. First round
First round
Second round
Second round
Third round
Third round
Catalyst
Control
Catalyst
Control
Catalyst
Control
Project KPIs Number of households per round
4*
3
4
6
3
3
KPI 1: Decreased relative utility bills
3
1
3
0
3
0
KPI 2: Improved financial circumstances
3
1
4
0
3
0
KPI 3: Improved level of thermal comfort
4
1
4
0
3
0
KPI 4: Reduced reported level of discomfort on extreme weather days
4
0
4
0
3
0
KPI 5: Improved occupant health and wellbeing
4
1
4
1
2
1
KPI 6: Improved utility and mobility
4
1
4
2
3
1
KPI 7: Improved tenant engagement and experience in managing ESD and climate changerelated aspects
1
0
2
0
1
0
KPI 8: Improved neighbourhood satisfaction and safety
3
1
3
2
3
2
KPI 9: Improved life circumstances
4
2
4
0
2
1
KPI 10: Improved relationship with the department
3
0
2
1
3
2
* Note the number of households recorded against each KPI is based on the number of households available for interviews in each round.
82 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
83 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
4. Evaluation of home advisory tour During the third round of interviews, households that
the gas heater on when they were out of the home as
had participated in the home advisory tours were
they had been told by a friend that turning the heater
asked to evaluate these tours. The home advisory
on and off used more energy than leaving it on all the
tours were well received by all households that
time. Once the home advisory tour expert explained
participated. The households appreciated having
that this was not the case, they began turning the
someone come in and walk them through how they
heater off properly when they left the house, although
use, or do not use, their houses. They felt the home
only if they left for more than a few hours (so there is
advisory tours were personalised and comprehensive
still room for improvement). They were not sure if this
and were able to understand what the advisor was
had resulted in any change to their utility bills or not.
doing and asking about.
This was similar to one of the Control households (ConB), which had made the switch from washing
However, there were limited opportunities for
clothes in warm water to cold water based on the
households to make changes. Very few households
advisor’s feedback. They were also unsure if this had
made many changes at all as they felt they were
impacted on overall utility bills.
already doing most things they could, or because the suggested changes had a cost associated with the action, which the household could not afford (for example, buying a more energy-efficient fridge). The
ConB: We were just talking about the power and how to, like, yeah, about the laundry, to put it on cold instead of like, because I do my washing on warm. So she reckons that, because that uses up gas as well when you put it on hot or warm or something. Yeah.
tenants in CatD summarised the feedback from most
I: Okay. And…
households that participated in the home advisory
ConB: That was a good tip, because I didn’t even know that the washing machine actually used some of the gas.
tours as follows: CatD: She just said I was doing most things right, other than the fact I should turn my TVs off. They’re always on standby. The minimal [energy] that they use, really. Other than that, no, we just basically said I’m still doing the same old thing. I: And did you start to turn the TVs off at the [wall]? CatD: No. [Laughing]
I: Yeah, so you’ve changed that now? Do you wash in cold? Con B: Yeah. I: And have you noticed any differences in your gas bills or your electricity bills? ConB: I’m not too sure, I haven’t really looked at them. I don’t know.
I: And the reason for that? CatD: I just never have. If I go away for a couple of days I will, but other than that I think the tiny little bit of power that uses it’s not going to worry me too much.
IN SUMMARY: The home advisory tours were well received, but achieved little in changing energy or water consumption.
I: Do you think if you weren’t in credit on your energy bill that…?
The findings suggested that interventions needed to be
CatD: No, I still wouldn’t.
as those in social housing. While the personalised and
However, two households did indicate they had made some changes. The tenants in CatC, previously left
further tailored for particular groups of households, such tailored delivery of advice was well received (and well suited as a future format for social housing tenants), further interventions are more likely to achieve positive sustainability outcomes if they are supported by financial incentives, rebates or the provision of equipment.
84 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
5. Interviews with stakeholders This section presents the analysis of two rounds of
only two stakeholders participated in the second round
interviews with key stakeholders involved in the design,
of interviews. This was due to a range of issues with
management, construction and occupation of the
the other stakeholders.
Catalyst houses.
•
The builder had left the company and there was no suitable person to interview within the company.
•
5.1 Stakeholders Five key stakeholders were interviewed for the
The electrician did not respond to repeated requests for a follow-up interview.
analysis: the builder, electrician, architect, the
•
The department Project Manager had retired
department Project Manager and the department
by the time of the first interview and was not
regional representative (see Table 8). All stakeholders
approached for a follow-up interview.
participated in the first round of interviews. However,
Table 8: Stakeholders interviewed as part of the evaluation. Role/relationship to Catalyst houses
Analysis code
First round interview
Second round interview
Builder
Stakeholder A
✓
X
Electrician
Stakeholder B
✓
X
Architect
Stakeholder C
✓
✓
The department Project Manager
Stakeholder D
✓
X
The department regional representative
Stakeholder E
✓
✓
5.2 KPI 11: Increased engagement with building and development industry sector
the Catalyst project, as self-reported by them.
Objective: 1. Support ESD up-skilling of regional
While all stakeholders were happy to be involved in an
builders, contractors and trades
innovative sustainable development, their involvement
Indicator: 1. Builders, contractors and trades getting
had not led to an increase in ESD work, even three
increased ESD work stemming from their experience in
years after completion of the project. Three key
85 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
reasons identified by the stakeholders for this were:
and outcomes. However, there were a few points
•
there was no local promotion of the project
of feedback, mainly concerning design of the
•
changes by Federal and State Governments
development, which could be considered for future
to solar panel rebates and feed-in tariffs meant
projects. In summary, these related to:
incentives for this technology reduced
•
•
stakeholders needed to build and demonstrate a portfolio of similar work before gaining further
technologies •
projects. The following quotes reflect these challenges:
the design and choice of some materials and significant periods of delay at the start of the project
•
higher than normal variances after the contracts were signed.
Stakeholder B: At that stage it was pretty strong anyway, the solar, in itself. It’s definitely dropped off. But that’s – that seems probably caused by the government, to be quite honest, because the feedin tariff was originally 66 cents and it went down to 30-odd cents, now it’s down to eight cents, so supply and demand is not there as what it was. So to me that’s the government. Stakeholder C: No it’s, so you get sustainability clients by getting a reputation in sustainability. Now we don’t have a reputation in sustainability so we get the clients that we can get.
Only one of these reasons (no local promotion) was within the control of the department, although it appears there was little self-promotion undertaken by any of the stakeholders. The stakeholders were unclear
IN SUMMARY: There has been no increase in ESD work for stakeholders involved in the Catalyst project. as whose role it was to drive local promotion. Indicator: 2. Other feedback from builders, contractors and trades on implications stemming from project involvement. The tradespeople (builder, electrician) interviewed felt that the project had run relatively well in terms of engagement with the department, processes
86 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
For example, the size and sharing of the water tanks between two households was identified as a design learning: Stakeholder D: I think they’re 5,000 [litres] from memory. So 5,000 isn’t really a lot of water… But if you’ve got it for [a] toilet and laundry, then I think it probably has to hold a substantial amount more because Horsham, for example, will only rain at a certain time of the year and it’s not like you’re going to be able to top it up getting a lot of rain during summer. So you’re probably going to run out of tank water fairly quickly once you get into the dry period. But the, the joining the two together yeah, I think I’d probably say that now in hindsight that probably wasn’t a good idea because you want people to be able to manage it themselves, just manage their own tank and keep it to a certain level and know what they’ve got and don’t have to worry about somebody else maybe using more or using their water, you know.
Stakeholder C felt that there were periods of significant delay between design, engagement of trades and beginning of work. This led to a risk that technologies or materials may have been superseded or supply of those changed, creating inefficiencies in work practices. It was recognised that some of this delay was typical of working with any government department. Stakeholder C: It’s just one of the frustrations of life I’m afraid and, but I think in fairness to the department, I think they have really given this some serious consideration… So I suppose I’d like things to happen a little bit quicker, but then sometimes the department just can’t move quicker. It just can’t because it’s subjected to its own politics and its own momentum so, so speed is the only thing that I would like to see happen a little
In addition to the delays in starting the project, there were challenges resulting from the higher than normal number of variances to the project after the contract had been signed. While some of these variances were the result of the project being innovative, Stakeholder A thought that a lot of the variances could have been
Stakeholder C: What would I have done differently? Well I suppose I would have designed the carports differently to the way I did at the end…I discovered that the metal, we used the Fischer insulation wall panels and when the sun shines on them they get hot.
avoided with more careful planning. For example, the placement of power boxes and monitoring equipment had to be moved after initial installation. Furthermore, the laying of additional power requirements down the driveway was unexpected and almost became a bigger issue as it was only flagged days before the driveway
IN SUMMARY: The stakeholders reported a number of learnings to improve future projects around de-sign, material and technology choices, reducing delays and variances to contracts.
was due to be sealed. Stakeholder A: We had issues with that trying to batten it out onto the brickwork, which was, yeah, bit of a challenge. If they did it again they should have a false wall in the brickwork that’s already straight rather than try and batten the brickwork to the spacings to put the cladding on because the brickwork’s in and out the backs of bricks are everywhere. Yeah, they should have a maybe a three-inch wall on the back of it or something like that on the back of the brickwork so you can fix your cladding straight to it, be miles quicker.
Stakeholder A continued, saying: Stakeholder A: Well, I suppose a job like that that’s a little bit different you’d expect some [variations]. Some of them were minor, but they had to be documented for our company to get paid for them because it might’ve been only change of a product that maybe wasn’t quite suitable that they’d at a later date, well, we need a variation before we’re entitled to order it and get paid for it.
While the design and choice of materials were not raised as major concerns for the builder, one element was flagged as something that could be changed for next time, and also proved to be a learning outcome. Another lesson was that the carports should have been redesigned, and that the use of metal cladding meant that it sometimes became hot to touch (stated as a minor issue). The cost of the carports was an issue raised in the CBA (see Section 6).
87 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
Indicator: 3. What worked well about the project, as self-reported by the trades and the department. Overall feedback about the project and outcomes was exceedingly positive from all stakeholders. The way all the trades and key department stakeholders worked together was flagged as very successful. Some innovative design and technology elements, such as future-proofing the department housing for both a changing climate and ageing population, were also considered a success. The monitored data supports stakeholder claims that a more sustainable and liveable product was delivered (see Section 6). Feedback from the tenants also indicates their overall satisfaction with the end product, as discussed in Section 3. Stakeholder D: So it was a project wanting to lead in that area [sustainability] and I think it achieved that result and achieved the accommodation that we were seeking, that is when it was completed and you walked in you knew that the money spent was well spent, that we got what we wanted…well it’s better than private accommodation. You know it actually wasn’t that expensive for the outcome. I’m very pleased. [We] had a good team, good architects and good builders. Stakeholder E: …From what sort of the feedback I’ve got from the tenants so far and my experience with managing those actual properties, everything seemed to be doing what it was supposed to be doing and meeting the aims of the projects that I’m aware of. I guess the longer term will perhaps, we’ll know more as to what improvements could have been made and changes that could be made. But for now I think it’s doing really well.
IN SUMMARY: The stakeholders reported a number of things that worked well about the project, including a good working relationship with other key stakeholders and the innovative nature and outcome of the development.
5.3 KPI 12: Improved business practices Objective: 1. Improve business practices across trades resulting from work on Catalyst houses Indicator: 1. Builders’, contractors’ and trades’ changes to business practices as self-reported by them.
Stakeholder C: Well, I think we’ve always been ‘green’ in inverted commas… unfortunately we don’t market ourselves very well and because of our tendency always to fly below the radar, it works to our disadvantage unfortunately… And every project is an evolution from your past experience, so yes we do learn and I’m currently doing six houses at the moment in Middle Park where we’re using the Tri Deck, we’re using the solar panels, we’re using well the reverse, not quite the reverse brickwork in a way yes that’s, that concept is working through. The sun shading control is working though, orientation is, so yes you can’t go backwards… Stakeholder B: Mostly, we’ve got our procedures of how we run our jobs…We make sure obviously when we price the job, we run the job, we buy the material, material so for that day to do that day’s work…we’ve got so many hours, we quote the job to win the job, that we’re hopefully counting in that time. If it doesn’t come in that time, there’s got to be reasons why. Stakeholder A: It’s no different to normal building really.
Only one stakeholder had changed their business practices as a result of working on the Catalyst project. There were other possible reasons for this, including changing Federal and State Government policies, reduced support for sustainability in general
IN SUMMARY: Only one of the three trades made changes to their business practices based on their involvement in the Catalyst project.
and specifically less renewable energy rebates and feed-in tariffs. Furthermore, Stakeholder A reported that their company was trying to deliver products
5.4 KPI 13: Improved process and governance (stakeholder perspective)
that they believed the market wanted, and stated
Objective: 1. Improved process and governance
that improved sustainability was not what the market
due to the project
was demanding. Unfortunately this stakeholder was
Indicator: 1. Builder, contractor, trades and the
not able to be interviewed a second time, as there
department improved process and governance as self-
has been recent research suggesting a subtle shift in
reported by them.
the housing market, with consumers more aware of improved design and sustainability [102].
There were significant learnings around process and governance reported by the department and the
For the one stakeholder who had changed their
architect. This was largely because of the innovative
practices, the Catalyst project fed into a wider strategic
nature of the project for both the department and the
decision for them to engage more with sustainable
architect, but more broadly also for the wider building
developments, and this project was a way for them to
industry. At the time the project was being designed,
demonstrate their capabilities.
there would have been few nine-star affordable housing developments with which to reference. While
However the other two tradespeople interviewed
the department has been an early adopter of some
indicated that it was business as usual for them.
housing sustainability elements (for example, solar hot
88 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
water, rainwater tanks for gardens), the Catalyst project
In the second round of interviews with Stakeholder
represented a significant sustainability improvement
E, they indicated that they felt that recent new
for the department housing stock, with little wider
department buildings around Horsham had improved,
guidance to draw upon.
perhaps not in terms of significant sustainability, but certainly through improved design and layouts.
Furthermore the project did not start out as a strategic goal to push sustainability outcomes, but emerged after the architect had already been engaged to develop some standard department housing for the site. Through proactive discussions between the architect and the department it was determined that if funding could be acquired they would aim to test what was possible and build some low energy, sustainable dwellings. Implementing such a significant performance improvement compared to standard department housing required a process of learning by doing and testing. For example, there was a requirement to provide households with information about how to use the sustainability elements of the house, which was something that had not been provided previously. There was a strong working relationship between the architect and the the department, which allowed this approach to work, although as mentioned earlier, there were challenges resulting from the high number of design variations. Stakeholder C: The initial development was actually a conventional department development both in terms of planning and in terms of the housing that we were putting there… So we started off this project in a similar fashion and I think we had somewhere between five and six stars when we first got the energy rating and the energy rating was actually done in-house here… Then we were approached by the department and in particular to see what we can do to those existing houses that would make them more energy efficient and be more, I suppose, user friendly and see what can be done that we can, or the department can, demonstrate a responsibility to the community as well, and demonstrate that public housing can play its part in terms of providing better housing, a higher quality of housing. And in turn it would also help us ascertain how good the existing housing is versus what is it that we actually can do… we had an opportunity to see what we can do and what the potential is and see what is available. And then we learned from that and I’m hoping after the three-year period we set up a new set of standards for the housing and I hope to be part of that process.
89 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
Stakeholder E: They seem to be, last few lots of units that we’ve had handed over, there seems to have been a lot more thought put into the layout of the units, which is good.
The builder and electrician, however, did not provide any evidence that their own processes or governance structures had improved or changed due to being involved in the Catalyst project. Part of the issue may be that for the regional area, there was already a lot of building work occurring due to recent Federal Government stimulus funding, which limited the tradespeople available to work or reflect on the project. Stakeholder D: So there was a very limited number of builders actually available and we did tender twice. The first time we tendered it far exceeded budget, so we just stepped back from it then we redesigned to bring it down, the price down, so then we went back out again… Doing schools and police stations and all that sort of thing. So time wise it probably wasn’t a good time to do it.
IN SUMMARY: •
There were some learnings for all stakeholders in relation to improvements for governance of such a project.
•
Specifically the main learnings related to having now undertaken such an innovative project (which still remains innovative three years post construction), and so stakeholders have a better understanding of what to expect if the project was to be repeated.
5.5 KPI 14: Improved benefits across all actors from increased ESD (stakeholder perspective)
Objective: 1. Improve benefits across trades, the
Department benefits
department and households from increased ESD
The benefits identified for the department included
of new housing stock
being an industry leader that was driving cutting-edge
Indicator: 1. Builder, contractor, trades and the
ESD; developing properties that were more liveable,
department increased benefits as self-reported by
particularly for elderly people in a changing climate
them.
(peak weather conditions); reduced utility bills for tenants; and lower maintenance and less engagement
The stakeholders identified a number of benefits for
with tenants in the Catalyst houses (as they were
the trades involved, to the department and to the
happier and had fewer issues). As identified in the
households.
household interviews, the Catalyst houses delivered on the improved liveability outcome (Section 3).
Trade benefits The Catalyst project presented an opportunity for the trades to be involved in a leading ESD construction. The trades reported being satisfied to have been involved, but to date they did not feel it had led to any ongoing ESD-type work. One stakeholder was unclear of what the longer-term benefits were. The stakeholders were hopeful that if the quality of the project was high, then it might lead to additional work with the department in the future. In contrast, a department stakeholder felt there were substantial benefits for the trades, in that they had an opportunity to learn about doing enhanced sustainability in developments. Stakeholder D: For the building industry I thought it was extremely good for [them] to have that opportunity to, you know, it’s a fairly low risk thing, it’s not like their money, they’re having the opportunity to just see how you can achieve a good energy rating, an extremely good energy rating. How it’s done and how things work and the same with the tradespeople that were involved with the builder. So I think they can learn a lot from that.
Stakeholder B: Oh, obviously we’ve got work, and hopefully ongoing work. And hopefully if we did a good job, future work. So that’s why we try and do our best possible way in that to get ongoing work.
Stakeholder A: Well [sigh] we haven’t got any benefits at this stage.
Stakeholder D: For the department I think the department has got an ageing population in its tenant profile and if we are going to continue to have drawn out summers and long periods of hot weather in summer the department’s going to face using air conditioning, you know using mechanical means to keep older people cool and being able to live in those conditions. I think that the project demonstrated you don’t actually have to go down the mechanical path, you can look at passive design and some simple technologies to help provide a fairly liveable or balanced thermal outcome for tenants. So I think the department has to look at the long term how it’s going to accommodate its older population…I should say that the department met two things and it was, it showed liveability, that high liveability is achievable without throwing too much money at it, and also you can protect the environment without having to spend a lot of money. So I think that’s something you’ve got to keep in mind that we have a benefit for the environment as well. But with the community, well it showed a commitment to the environment…it demonstrated to community that, yeah, the department is a, like when I was saying like an authority or a leader in design.
Stakeholder E: All government departments have obviously got that environmentally friendly in the back of their mind with everything that we do these days. I mean the policies that we’ve got even here, we’re not allowed to buy non-recycled paper, just for example… But yes, specifically for our clients it is the financial benefits for them. Stakeholder E: I’d say probably less [maintenance]. Whether that has to do with they were well built or whether it has to do with the tenants that we selected to go in there. Perhaps it’s a combination of those two…I would say that overall there have been less.
However, two stakeholders questioned whether the department had achieved the most efficient outcome for its money (see Section 6.5). 90 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
Stakeholder C: …That’s still something that I think needs further discussion because I can’t see, unless there’s something, the research actually reveals something really positive and of real advantage, I can’t see the amount of money that’s being spent on the PV panels and versus, what the cost penalty to the department for the solar panels versus the benefit to, and think from the department there isn’t a benefit other than a community responsible benefit, do you know what I mean?
Stakeholder A: The benefit? I don’t think there is any benefit to be honest with you, for those type of people. I mean you’re probably going to get good tenants but for the bad, for the tenants that don’t look after it, it’s a crying shame waste of good money.
healthier, they’re more likely to be able to make those steps out of public housing, which that turnover would benefit. The financial benefits for the tenants as well, like, as you say, some of them are in credit in their power bills because simply the solar panels makes that difference. So I think it’s that overall it all plays a part with if you’ve got a healthier and happier tenant, one, if they’re able to they’re more likely to move on and two, if they’re not able to, you’re more likely to have a successful lengthy tenancy as in they’re going to pay their rent on time, they’re going to be in a better position to look after the property. So the long-term maintenance on the property will be less than otherwise as well.
IN SUMMARY: •
The stakeholders did not feel that many wider
Household benefits
or additional benefits had eventuated for the
The benefits identified for households included
trades involved.
living in a new house, reduced utility bills, helping
•
Many benefits were identified for the
the environment and flow-on benefits to visitors.
department around having happier, healthier
These benefits were confirmed through the housing
tenants who were in more liveable and
performance and CBA (see Section 6). One
affordable housing.
stakeholder also raised the issue of the quality of the
•
Similarly the tenants in the Catalyst houses
tenants being placed in the sustainable houses and if
were the ones who were realising the
the full benefits were being, or could be, realised.
improvement to health, comfort, liveability
Stakeholder E: I’ve been in there in during our really hot summers and they’ve actually been quite pleasant in there, which is part of the purpose of it. Yeah, I think…and they’re big and spacious and they have like your built-in robes, the carports – there’s things that they have that aren’t standard for our other properties so they’re actually really nice units and they have remained so. Like given their age now, you would expect to have seen some sort of, well I guess, more than average wear and tear, but they’ve actually remained in pretty much their original condition.
and affordability.
5.6 Stakeholder summary In summary, there was overwhelming opinion from stakeholders that the project was a success. The relationship between external stakeholders and the department worked well for the most part. There were some learnings around design and process (for example, the delayed start and a high number
Stakeholder E continued to summarise the benefits for households, three years post construction: Stakeholder E: With healthier, happier tenants, I guess if tenants are in a better frame of mind, one of the ideas that has been sort of bandied around is to encourage tenants to use it more as a stepping stone. So, “You’re in this situation now, you need the assistance but maybe if you can manage to get full-time work then you can look to purchasing your own home”. So I guess if the tenant is happier and
91 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
of variations), which proved challenging. While the tradespeople saw the project as a gateway to more work with the department and also towards more sustainability projects, that had not eventuated at the time of the first round or round two interviews. There were a number of factors that contributed to this, some of which were outside the direct control of the stakeholders (for example, changes to environmental
policy and support by Federal and State Governments),
raised from the interviews. While the stakeholders
but the lack of local promotion of the project was
were positive about the project and what it achieved,
raised as something that could have helped the
Table 9 shows that against the department KPIs, the
stakeholders to build on the success of the Catalyst
project did not meet its objectives for the stakeholders
houses. In addition, there were a number of benefits
involved.
for the department, the tradespeople and households
Table 9: Summary of stakeholder KPIs and if they were addressed.
KPI list
Number of stakeholders (not including the department) (out of three)
KPI 11: Increased engagement with building and development industry sector
0
KPI 12: Improved business practices
1
KPI 13: Improved process and governance (stakeholder perspective)
0
KPI14: Improved benefits across all actors from increased ESD (stakeholder perspective)
3 (but not directly to them)
92 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
6. Housing performance and cost-benefit analysis The following section presents the analysis of the
and collected data for this analysis. Ian Adams from
performance of the dwellings from June 2012 to May
Organica Engineering contributed to the analysis
2015. The section first outlines the data that was
of utility performance presented below. Any tables
collected, noting where data was not available and
or graphs provided directly by Ian Adams are
what occurred in these situations. The performance
acknowledged as such
of household utility consumption and renewable energy generation are then presented, followed by
6.1. Data collected
analysis of thermal performance of dwellings, blower
Table 10 shows the availability of either monitored
door performance, the outcomes of the CBA and the
or collected (utility bill) data for each dwelling across
environmental performance.
electricity, gas and water consumption for each year of analysis. There are data gaps, particularly around
As described in the methods section (see Section
gas consumption for all Control houses for 2013–15,
1.35), Organica Engineering provided monitored
and electricity for three of the Control houses for
Table 10: Monitored or collected (utility bill) data available for each year and utility.
Dwelling
Electricity data (including solar) 2012– 13
2013– 14
2014– 15
Water data (including rainwater tanks)
Gas data 2012– 13
2013– 14
2014– 15
2012– 13
2013– 14
2014– 15
CatA
✓
✓
✓
✓
✓
✓
✓
✓
✓
CatB
✓
✓
✓
✓
✓
✓
✓
✓
✓
CatC
✓
✓
✓
✓
✓
✓
✓
✓
✓
CatD
✓
✓
✓
✓
✓
✓
✓
✓
✓
ConA/A2
✓
✓
✓
✓
✓
ConB
✓
✓
✓
✓
✓
ConC
✓
✓
✓
✓
✓
ConD
✓
✓
✓
✓
✓
✓
✓
ConE
✓
✓
✓
✓
✓
✓
✓
ConF
✓
✓
✓
✓
✓
✓
✓
ConG
✓
✓
✓
✓
✓
✓
✓
✓
93 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
2013–15. There are several reasons for this. Due to
Where this occurred, data from the corresponding
project budget constraints, Organica Engineering did
months the previous year or following year were used
not have monitoring equipment in three of the Control
to fill gaps in the data to ensure seasonal differences
houses (ConC, ConA/A2 and ConG), which meant
of consumption were captured. Note that the Organica
electricity data for these dwellings was reliant on utility
Engineering data presented in parts applied a slightly
bills, and Organica Engineering did not have monitoring
different method whereby data gaps were removed
equipment for gas consumption in any of the Control
and averages across the remaining data set calculated.
houses. Despite receiving all necessary permissions
This did not make a significant difference between the
from households for collecting initial data in 2012–13,
RMIT team and Organica Engineering data.
the electricity and gas providers did not provide further bill data after this point in time due to issues of
6.2. Utility performance
household permission. Organica Engineering spent
The average annual data for electricity consumption,
time following this up with the utility providers, but a
renewable energy generation, gas consumption and
solution was not found. This issue was raised at the
water consumption for each dwelling in the study is
Deliverable 5 interim presentation with the department.
presented in Table 11. This data will be explored in
Where there were data gaps for whole years, data was
more detail in the following sections. Further data is
assumed to remain consistent from the available data
presented in Appendix 4, as compiled by Ian Adams
collected for that dwelling.
from Organica Engineering.
There were also some periodic issues with the monitoring equipment for electricity and gas in the houses where monitoring equipment was installed. This meant that the equipment failed to monitor data in specific dwellings for periods of one to three months at a time.
94 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
Table 11: Summary of average annual utilities consumed/generated from each dwelling. Annual average from monitored/collected data from June 2012 – May 2015 Electricity consumed (kWh)
Electricity bought (kWh)
Renewable energy generated (kWh)
Gas consumed (MJ)
Total energy consumed (kWh)
Total energy bought (kWh)
Mains water consumed (KL)
Rainwater consumed (KL)
Total water consumed (KL)
Number of occupants
Standards Industry Practice
6,468
6,468
0
8,777
8,906
8,906
147
0
147
2
Department Standards
4,587
4,587
0
8,777
10,639
10,639
143
0
143
2
CatA
3,305
1,605
2,916
13,977
7,188
5,488
108
32
140
3
CatB
3,495
1,890
2,497
26,044
10,140
9,124
194
30
224
2
CatC
3,978
1,756
3,257
16,614
8,593
6,371
109
25
134
1
CatD
3,285
1,604
2,853
27,463
10,914
9,233
77
17
94
1.5
ConA/A2
4,584
4,584
0
32,776
13,688
13,688
138
0
138
2
ConA/A2
2,259
2,259
0
55,864
17,777
17,777
121
0
121
2
ConC
1,510
1,510
0
14,827
5,629
5,629
131
0
131
1
ConD
5,860
5,860
0
32,776
14,964
14,964
110
0
110
3
ConE
2,223
2,223
0
30,491
10,693
10,693
177
0
177
2
ConF
2,172
2,172
0
24,618
9,010
9,010
126
0
126
2
ConG
3,118
3,118
0
14,008
7,009
7,009
118
0
118
2
6.2.1. Electricity Overall the Control households consumed less electricity (an average of 3,104 kWh) when compared to the Catalyst households (an average of 3,516 kWh). This is due to differences in household practices (for example, heating and cooling) and Control households appearing to have less electricity-consuming appliances and devices (based on researcher observations). However, once solar generation is factored in, the Catalyst households purchased less electricity overall (an average of 1,714 kWh). Only one Control household (ConD) consumed more electricity
95 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
than the department Standards (see Figure 7). When looking at the electricity consumption data from a per person perspective (see Figure 8), the ConD household falls below the department Standards, while the CatC household is above this Standards, although this household falls below the department Standards once the solar generation is considered. On a per person basis, when solar generation is factored in the Catalyst households purchased 77 per cent less electricity compared to the SIP household, 53 per cent less electricity compared to the department Standards,
and 30 per cent less electricity compared to the
SIP household, 62 per cent less electricity compared
Control households. On a per dwelling basis, when
to the department Standards, and 45 per cent less
solar generation is factored in the Catalyst households
electricity compared to the Control households.
purchased 73 per cent less electricity compared to the
Figure 7: Average annual electricity consumption and adjustments for solar energy for all dwellings in comparison to the SIP household and the department Standards.
Figure 8: Average annual electricity consumption and adjustments for solar energy for all dwellings/persons in comparison to the SIP household and the department Standards. 96 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
6.2.2 Gas
and one Control household (ConG) were below the
The Catalyst households consumed 15 per cent less
department Standards. On a per person basis, the
gas (average of 21,000 MJ) when compared to the
Catalyst households consumed 300 per cent more
Control households (average of 24,900 MJ). While
gas compared to the SIP household, 20 per cent
overall the Catalyst households used almost three
more gas compared to the department Standards,
per cent less gas than the department Standards
and three per cent more gas compared to the Control
(21,786 MJ), only two of the individual Catalyst
households. The high use of gas for the heating of the
households used less than the department Standards.
Catalyst houses compared to the SIP household was
Further, only two of the seven Control households
caused by differences in thermal comfort practices (for
consumed less gas than the department Standards.
example, leaving doors open while the heater was on
In comparison to the SIP household, the Catalyst
so pets could come in and out, or leaving windows
households consumed 239 per cent more gas. When
open to vent cigarette smoke). These variations,
looking at the gas consumption data from a per person
common in other household research, are not factored
perspective, only one Catalyst household (CatA)
into the SIP household assumptions of behaviour.
Figure 9: Average annual gas consumption for all dwellings in comparison to the SIP household and the department Standards.
97 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
Figure 10: Average annual gas consumption for all dwellings/persons in comparison to the SIP household and the department Standards.
6.2.3. Energy total
households above this Standards for the per dwelling
Figure 11 and Figure 12 present the preceding
data, and three households above this Standards for
electricity and gas data in a single graph (for dwelling
the per person data. Overall, the Catalyst houses used
and per person) for comparison. What these graphs
12 per cent less energy (gas and electricity) than the
show is that while the Control houses consumed less
department Standards, seven per cent less energy
electricity overall, they also consumed more gas. The
than the Control households, and five per cent more
electricity and gas consumption data is combined into
than the SIP household. When solar generation is
a single total per house and per person in Figure 13
factored in, overall the Catalyst houses used 29 per
and Figure 14. For both per dwelling and per person
cent less energy (gas and electricity including solar
analyses, there are three Control households that
generation) than the department Standards, 24 per
have a higher consumption of energy in comparison
cent less energy than the Control households, and 15
to the department Standards. There are two Catalyst
per cent more than the SIP household.
98 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
Figure 11: Average annual electricity and gas consumption for all dwellings in comparison to the SIP household and the department Standards.
Figure 12: Average annual electricity and gas consumption for all dwellings/persons in comparison to the SIP household and the department Standards.
99 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
Figure 13: Average annual energy consumption for all dwellings in comparison to the SIP household and the department Standards.
Figure 14: Average annual energy consumption for all dwellings/persons in comparison to the SIP household and the department Standards.
100 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
6.2.4. Water
similar amount of water (Catalyst household average
In terms of water consumption, only one Catalyst
129 KL, Control household average 131 KL). When
household (CatB) and one Control household (ConE)
rainwater use was included, the Catalyst household
were above the department Standards. In the case
average dropped to 103 KL or 22 per cent lower than
of the CatB household, a portion of this high usage
the Control households, 28 per cent lower than the
is attributed to a water leak that went undetected for
department Standards, and 30 per cent lower than
several months. The data after the water leak was
the SIP household. On a per person basis, there are
fixed indicates consumption similar to the department
two Catalyst households and two Control households
Standards (see Figure 15). Adjusting for the water
whose water consumption was above the department
leak data, both sets of households consumed a
Standards (see Figure 16).
Figure 15: Average annual water consumption for all dwellings in comparison to the SIP household and the department Standards.
101 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
Figure 16: Average annual water consumption for all dwellings/persons in comparison to the SIP household and the department Standards.
6.3. Thermal performance
the allowable maximum difference between this
Summertime thermal comfort analysis was undertaken
comfort temperature and the actual indoor operative
for the period October 2012 to March 2013 and
temperature is ±3oC. The standard provides
October 2013 to March 2014 via three key adaptive
three additional criteria to measure the severity of
thermal comfort criterion. Analysis based upon these
overheating beyond this temperature range:
criterion has been used in recent thermal performance research, (see [68]).
Criterion 1 – Hours of Exceedance (He): The number of hours the measured operative temperature (Top)
The European thermal adaptive comfort standard, BS
exceeds the upper limit of the acceptable comfort
EN 15251 (BSI, 2007), was used in the analysis as
temperatures range (Tcomf ±3oC) by 1oC or more
there is currently no Australian standard. The standard,
should not exceed three per cent of the total occupied
although essentially a blunt technical instrument,
hours or 40 hours, during summer months. Tmax =
allows for a wider range of indoor temperatures to
Tcomf+ 4.
calculate thermal comfort, with the temperature midpoint changing based on the average temperatures
Criterion 2 – Weighted Exceedance (We): For each day
experienced across the previous month.
the sum of the weighted exceedance for each degree Celsius above Tmax the allowable maximum should be
The standard calculates the comfort temperature
less than 10; where We = ΣHe*(∆T)2 and ∆T = (Top –
(Tcomf) in a free running building according to the
Tmax), rounded to a whole number.
running mean of the outdoor temperature (Trm), using the formula Tcomf = 0.33*Trm + 18.8. For new
Criterion 3 – Threshold/Upper Limit Temperature
buildings and renovations (category II buildings),
(Tupp): The measured operative temperature should
102 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
not exceed the Tmax by 3oC or more at any time. Tupp
temperature conditions across the dwellings, adaptive
= Tcomf +7oC.
thermal comfort criteria have been calculated for all houses, not as a metric to assess if the tenants would
A building is judged to have an unacceptable level of
be considered thermally comfortable, but as a means
overheating if any two criteria are exceeded.
to evaluate overheating.
The analysis also includes mean, minimum and
The operative indoor temperatures for the living rooms
maximum temperatures recorded for each house,
and bedrooms were analysed through the three criteria
as well as an average internal temperature when
described above for each house with available data.
the external temperature is 30oC and 40oC. The
Figure 17 is presented as an example of the raw data
temperature data at these two temperature points is
analysis using data from the living room of CatD. Each
also presented after being standardised by regressing
dot represents temperature data collected in 30-minute
internal temperature against external temperature
intervals compared to the average temperature
allowing comparison between different periods of
across the previous month. Based upon the European
time and different locations if they were exposed to
adaptive comfort standard, the aim across the summer
the same ‘standard’ external temperature conditions.
months is for the operative temperature to be between
It is of course stressed that adaptive thermal comfort
the Low and High temperature lines. It is clear that the
criteria can only be used to examine if the households
temperature is above the Criteria 1 and 3 limits for a
are likely to find conditions comfortable in buildings that
significant period of time.
are not air conditioned. To allow a comparison of the
Figure 17: Example of adaptive comfort measurements undertaken in analysis for the periods October 2012 – March 2013 and October 2013 – March 2014. 103 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
Table 12 and Table 13 present the temperature analysis
temperature was 43.0oC for ConD. It should be noted
for all houses. The mean temperatures between
that CatB was the only Catalyst house that had air
the Catalyst houses (23.8oC) and Control houses
conditioning installed. The use of the air conditioner
(24.0oC) were similar for the living areas, but Catalyst
in CatB is reflected in the analysis, with the dwelling
houses had an average mean temperature of 1.2oC
recording the lowest maximum temperature. As
difference for the bedrooms. The average maximum
a result, CatB had the highest percentage of time
temperature in the living areas of the Control houses
where it was calculated to be comfortable (76 per
was significantly higher (2.7oC) compared to the
cent) across the summer. The house with the lowest
Catalyst houses. When the data is standardised, the
percentage of time where it was calculated to be
Control houses are warmer than the Catalyst houses at
comfortable was CatA (53 per cent). Apart from
both 30oC and 40oC and for both the living areas and
CatB, which had air conditioning, the Catalyst houses
bedrooms.
where physically and technically similar, indicating that differences in calculated time in comfort were likely due
When looking at the adaptive comfort criteria, the
to the different activities households participated in to
Catalyst houses were comfortable 10 per cent more of
achieve thermal comfort. As with the averaged data, all
the time for the living areas, and seven per cent more
houses failed the overheating criteria.
of the time for the bedrooms compared to the Control houses.
Figure 18 shows the monitored temperature data for the Catalyst and Control houses during two days
This is not unexpected due to the improved passive
of extreme weather in January 2013. The external
design and increased thermal mass in the Catalyst
temperature reached 42.9oC on both days and only
houses. Using the averaged data, both types of
dropped to 21.7oC overnight. The figure clearly shows
houses failed all of the three overheating criteria,
that the Control houses were significantly warmer
and would be considered to be unacceptably hot
compared to the Catalyst houses. The difference
on several occasions during summer (for example,
is more pronounced on the second day due to the
heatwave days where the averaged daily maximum
Control houses not cooling down as much as the
and minimum temperatures were above 30oC). The
Catalyst houses overnight, with a difference of 16.6oC
suitability of using BS EN 15251 to assess overheating
from the hottest Control house to the coolest Catalyst
risk in dwellings needs to be investigated further as it
house.
still seems to present a narrow indicator of comfort. The analysis of the monitored temperature data is Table 13 presents the individual analysis for each of
supported by households’ reported satisfaction with
the Catalyst houses and the Control houses for the
the Catalyst houses – they were generally happier with
living areas. The lowest mean temperature was 22.6oC
the thermal comfort of the dwellings across summer
for ConE, and the highest mean temperature was
than those in the Control houses, as was explored in
25.4oC for ConD. The lowest maximum temperature
Section 3.4.
was 31.8oC for CatB, while the highest maximum
104 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
Table 12: Summary of measured performance from both groups of houses – summer data.
Room
Living rooms
Internal temperature
Standardised internal temperature when external temperature is 30oC and 40oC
Mean Min. (oC) (oC)
Max. (oC)
T@30 C (oC)
23.8
14.9
34.4
28.6
30.9
42.6
13.8
64.9
280.8
22.5
37.8
-0.6
24
13.7
37.1
28.8
33.8
38.5
16.5
59.7
509.3
58
102.7
0.3
Catalyst
22.6
13.3
33.4
28.5
32.8
33.8
9.8
54.7
183.5
18
16
-1.6
Control
21.4
12.6
34
30.8
36.2
18.3
7.1
52.6
335
40
55.5
-1.1
House
Catalyst Control
Bedrooms
o
T@40 C (oC) o
% of hours above certain temperatures
European adaptive comfort standard criteria
>25
% of time comfortable
>28
Hours above Days Criterion 1
Hours above T-Tcomf Criterion 3
Table 13: Measured performance from the living areas of each dwelling – summer data. House Internal temperature
Standardised internal temperature when external temperature is 30oC and 40oC
European adaptive comfort standard criteria
>25
% of time comfortable
Hours above Criterion 1
Days above Criterion 2
Hours above T-Tcomf Criterion 3
Mean (oC)
Min. (oC)
Max. (oC)
CatA
23.1
14
35
26.7
31.3
36.3
14.6
53.2
312
25
45
-1.2
CatB
23.9
15.1
31.8
29.1
33.7
47.3
7
76.1
106
8
6
-0.6
CatC
23.7
15
35.7
26.9
31
38.7
14.6
62.2
294
25
41
-0.6
CatD
24.6
15.4
35.2
31.9
27.8
48
19
67.9
411
32
59
0.2
ConD
25.4
15.2
43
30.3
35.8
51.2
26.8
59.1
794
68
267
1.5
ConE
22.6
11.6
35
29.4
36.3
27.6
10.4
54.7
484
80
38
-0.4
T@30oC (oC)
T@40 C (oC)
% of hours above certain temperatures
o
105 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
>28
Figure 18: Temperature in the living rooms of monitored houses and external temperature for 18–19 January 2013.
6.4 Blower door performance During the second round of interviews, a blower door test was conducted where the households gave consent. This was an additional data collection method delivered by the RMIT research team, which was not included in the original evaluation design. The blower door test is a standard method for measuring the air tightness or ‘air leakiness’ of a dwelling. Testing is carried out according to international standards and protocol, such as EN:13829 (2001) and ATTMA (the Air Tightness Testing and Measurement Association). The measurement of air tightness helps to investigate the energy performance of a dwelling, in terms of heating and cooling loads, and informs issues such as indoor air quality and dwelling ventilation rates. The test takes approximately one hour to set up and perform. A fan is fitted to the door of the dwelling using a dismountable frame and is used to blow air into and out of the building (see Figure 19).
106 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
Figure 19: Blower door test once set up (source: Trivess Moore)
In the UK, new housing achieves a result of
of CatC, likely to be a vent or window left open. This
approximately 10 air changes per hour at 50 pascals.
would explain why that house recorded a significantly
Wider evidence from Australia shows that existing
higher number of air changes in comparison to the
housing achieves between 20–30 air changes per
other Catalyst houses. This issue was not picked up at
hour, with some at 30-plus changes per hour. Newer
the time of testing, partly due to time constraints of the
housing in Australia could be expected to be in the
household. The data also shows that apart from ConE,
10–20 air changes per hour range. An evaluation of
the other Control houses performed within the range
housing in Canberra for another evaluation has found
for existing housing, although given their relatively new
results as low as six air changes per hour. When the air
age, a lower number would have been expected. The
changes are too low (below 10 air changes per hour),
star rating of the dwelling contributes to the number of
there is a requirement for other forms of mechanical air
air changes, in that higher star ratings require improved
exchange to prevent mould.
thermal performance (for example, reducing gaps around doors and windows). However, even houses
Table 14 presents the outcomes of the blower door
that meet minimum standards should be able to
test. The Catalyst houses performed better than the
achieve 15–20 air changes per hour if the houses are
Control houses, although one Control house (ConA/
well built (for instance, if the builder takes care to build
A2) had similar results to three of the Catalyst houses.
to specification).
We believe that there was an issue with the testing
Table 14: Results from the blower door test
Catalyst
Control
Address
Star rating
Air changes per hour @50 pascals
CatA
8.9
14.1
CatB
8.9
14.3
CatC
8.9
22.1
CatD
8.7
13.2
ConA/A2
6
13.5
ConB
6
Not tested
ConC
6.4
20.2
ConD
6
22.6
ConE
6
32.8
ConF
6
Not tested
ConG
6.5
Not tested
107 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
6.5. Cost-benefit analysis The additional upfront cost for the Catalyst houses was
solar PV system, solar hot water and a 10,000-litre
calculated to be $75,780 per dwelling (see Table 15).
rainwater tank plumbed into the house) to be only
The majority of this cost was for the improved thermal
$32,500 – less than half the cost of the Catalyst
performance of the building envelope. This additional
houses. While this is also a regional case study in
upfront cost is critical for any analysis of costs and
Victoria, the EcoVillage is proposing 219 dwellings
benefits, as presented below. In comparison to other
so there may be cost efficiencies considered in their
low and zero energy developments and research in
modelling that were not available in the Catalyst
Australia and internationally, the additional upfront cost
evaluation. Furthermore, the authors only modelled
for the Catalyst houses is high (see Figure 20). For
two designs, so there could be further cost efficiencies
example, the Cape Patterson EcoVillage in Victoria
when the development considers a wider range of
calculated that in 2011 the additional cost for their
house designs.
dwellings (minimum of 7.5 stars with minimum 2.5 kW
Table 15: Additional upfront costs per Catalyst house compared to a standard department house Element
Cost per unit (does not include locational efficiency)
Building envelope
$55,322
Solar PV system
$9,625
Rainwater tank plumbing and pump
$10,833
Total
$75,780
108 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
Figure 20: Comparison of additional capital costs to achieve a low or zero energy house from a range of projects and research.
109 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
Three key elements in the design and cost of the
is one immediate area where future costs could be
Catalyst houses were evident in terms of being able
reduced by reverting to a more traditional construction
to reduce the capital costs for future projects. The first
material. In addition, the additional costs for the solar
is that the 1.5 kW solar PV system was at least twice
PV systems and rainwater tank plumbing cannot be
as expensive as comparable systems available at that
explained by the regional location or lack of scale of ef-
time for an individual dwelling [8]. Secondly, the rain-
ficiencies. Both these elements were overpriced based
water tank plumbing and pumps were felt to be more
on sustainable housing cost research undertaken by
expensive than other options available in the (regional)
the research team at a similar point in time.
market at the time, especially as this cost does not include the rainwater tank as they were also standard
Further, research has found that the optimal result for
for other department Control houses in the study.
building performance in Melbourne for 2012 was eight stars not nine stars, as with the Catalyst houses. It
However, the main concern regarding where additional
should be feasible to reduce capital costs for future
costs were spent relates to the carport specification,
projects by modifying the building envelope perfor-
which featured an innovative material for its construc-
mance (for example, reducing from nine stars to eight
tion. While understanding that the project aimed to
stars) and selecting more economical technology op-
contribute to design and construction innovation, this
tions, although this would negate some benefits to
Three key elements in the design and cost of the
expensive than other options available in the (regional)
Catalyst houses were evident in terms of being able
market at the time, especially as this cost does not
to reduce the capital costs for future projects. The first
include the rainwater tank as they were also standard
is that the 1.5 kW solar PV system was at least twice
for other department Control houses in the study.
as expensive as comparable systems available at that time for an individual dwelling [8]. Secondly, the rain-
However, the main concern regarding where additional
water tank plumbing and pumps were felt to be more
costs were spent relates to the carport specification,
110 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
Table 16: Through-life maintenance costs per Catalyst house compared to a standard department house Additional cost per year per unit ($) without inflation
Maintenance costs Building envelope
$553
Solar PV system/inverter
$96
Rainwater tank and associated plumbing
$23
Total
$672
Table 17: Technology replacement costs Technology replacement costs
Total cost for the replacement of solar PV system and rainwater tank across 40 years (includes inflation)
Solar PV system/inverter
$13,531
Rainwater tank pump replacement
$1,673
Total
$15,204
The accumulated costs (upfront and through-
associated with the Catalyst houses that impacts on
life operating and maintenance costs to both the
the financial viability of the dwellings after five years.
department and the household) of the Catalyst houses
None of the Catalyst houses have a lower through-life
compared to the department Standards and SIP house
cost when compared to the department Standards at
are presented in Table 18. Data is presented for using
five years for the low or high energy price future. After
an anytime energy pricing model (where energy costs
40 years for the low energy price future, none of the
the same no matter what hour of the day it is used
Catalyst houses have a lower accumulated through-life
or how much is used). There is a high upfront cost
cost lower than the department Standards, but two
111 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
Table 18: Upfront and through-life operational costs after five and 40 years for a low and high energy price future Accumulated through-life costs (anytime energy pricing, low energy price future)
Accumulated through-life costs (anytime energy pricing, high energy price future)
5 years
40 years
5 years
40 years
Standards Industry Practice
$15,848
$260,342
$18,106
$350,721
Department Standards
$13,784
$224,657
$15,497
$296,765
CatA
$84,815
$240,659
$85,465
$269,168
CatB
$88,497
$291,955
$89,337
$330,467
CatC
$86,651
$252,432
$87,375
$284,307
CatD
$85,851
$262,178
$86,597
$297,617
have lower costs than the SIP house: CatC (three per
life costs: CatC (four per cent lower) and CatA (nine
cent lower) and CatA (eight per cent lower). Overall,
per cent lower). Compared to the SIP house, all four
after 40 years against a low energy future, the four
Catalyst houses have lower accumulated through-life
Catalyst houses are predicted to have a slightly higher
costs: CatB (six per cent lower), CatD (15 per cent
through-life cost compared to the SIP house of 0.5 per
lower), CatC (19 per cent lower) and CatA (23 per cent
cent.
lower).
For a high energy price future, there are also no
Figure 21 and Figure 22 depict the above information.
Catalyst houses that have a lower accumulated
As shown, the Control houses have a lower
through-life cost after five years compared to the
accumulated through-life cost for both the low and
department Standards or SIP houses. When compared
high energy price scenario for at least 25 years.
to the department Standards after 40 years, two Catalyst houses have lower accumulated through-
112 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
Figure 21: Accumulated costs for each dwelling in the research across time for a low energy price future.
Figure 22: Accumulated costs for each dwelling in the research across time for a high energy price future.
113 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
Table 19 provides a summary of the initial and accumu-
and Figure 24). They also deliver significant contribu-
lated costs after five and 40 years for the department
tions to sustainability and comfort that are uncosted in
compared to a standard department house. While
this study. This had a tangible effect on the households
there are substantial costs to the department over 40
as discussed previously, and significant carbon savings
years ($141,689), there are benefits to the households
for the planet. In addition, the houses, due to improved
as explored in Sections 2 and 3. However, the Catalyst
design and sustainability, are predicted to achieve
households saved an average of $1,050 per household
an increased asset value of $9,300 – $40,000 over
from the improved design, although this did not neces-
different future times depending on the future price of
sarily translate to lower operating costs (see Figure 23
energy.
Table 19: Summary of additional costs to the department Initial cost
Accumulated cost after five years
Accumulated cost after 40 years
$75,780
N/A
N/A
Additional maintenance
N/A
$3,570
$50,705
Additional solar and rainwater tank elements’ replacement
N/A
N/A
$15,204
Change to rent received
$0
$0
$0
$75,780
$79,350
$141,689
Element Additional building envelope, solar PV system, rainwater tank plumbed into house
Total additional cost to the department
114 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
Figure 23: Accumulated costs for each household (without the department capital and maintenance and replacement costs) in the research across time for a low energy price future.
Figure 24: Accumulated costs for each household (without the department capital and maintenance and replacement costs) in the research across time for a high energy price future.
115 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
Based on the additional capital cost and through-life
future did the Catalyst houses achieve a positive net
data of the Catalyst houses presented above, a net
present value by 40 years (see Table 20). Otherwise,
present value analysis was undertaken in comparison
for all other scenarios the Catalyst houses did not
to the department Standards scenario. Only for a 0.0
achieve a positive net present value.
per cent real discount rate for a high energy price
Table 20: Net present value analysis of Catalyst houses after five and 40 years. Scenario
Real discount rate
Five years
40 years
0.0%
-$73,014
-$37,149
3.5%
-$73,348
-$66,111
7.0%
-$73,498
-$69,948
0.0%
-$72,307
$1,376
3.5%
-$72,760
-$58,064
7.0%
-$72,964
-$65,831
Catalyst – low energy price future
Catalyst – high energy price future
If the development was to be repeated, there would
If the additional upfront costs are broken down to their
be expected cost efficiencies that could be found that
individual elements, there is a change to the results
would significantly improve the CBA and payback
(see Figure 25 and Figure 26). What can clearly be
periods (see Figure 20). For example, payback periods
seen is that for both a low and high energy price future,
of seven to 25 years have been found in Australian
the solar PV system is the most cost-effective element,
and international research [8, 48, 66, 103] indicating
followed by the rainwater system plumbed into the
the scope for improvements in capital costs for the
house. The solar PV system has a payback period of
department. In addition, extending the life of the
10 to 13 years and the rainwater tank plumbed into the
building to 60 to 80 years would see a payback
house has a payback period of 17 to 21 years. Only for
achieved across more scenarios, improving the
the high energy price future does the building envelope
financial proposition of the development. A well-built
only or the whole Catalyst house achieve a payback
house should last more than 40 years if it is maintained
(36 years) compared to the SIP household, and neither
[104]. Furthermore, the dwellings are calculated to
of these options achieve payback within the 40-
achieve an additional resale value of between $15,000
year model against the department Standards. This
to $40,000 per dwelling depending on the age of the
indicates that it is more economical for the solar PV
sustainability technologies in the dwellings and the
and water elements than it is for the building envelope.
price of utilities at the time of selling (see Section 1.3.5), which would be a direct benefit to the department.
116 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
Figure 25: Accumulated costs for various sustainability elements within the Catalyst houses across time for a low energy price future.
Figure 26: Accumulated costs for various sustainability elements within the Catalyst houses across time for a high energy price future.
117 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
6.6. Environmental performance The following presents analysis of the environmental performance of the dwellings based on the monitored utility data from June 2012 to May 2015. Using the figures provided by Organica Engineering to calculate environmental impacts in terms of kgCO2e/ dwelling/day, it can be seen in Figure 27 that the Catalyst houses had less environmental impacts from their (energy) operation than the Control houses (40 per cent less), the department Standards (50 per
cent less) and the SIP house (63 per cent less). The improved performance of the Catalyst houses is also reflected when looking at per person environmental impact, using the real household occupancy numbers from the project (see Figure 28). On a per person basis, the Catalyst houses had less environmental impacts from their (energy) operation than the Control houses (25 per cent less), the department Standards (36 per cent less) and the SIP house (54 per cent less).
Figure 27: Environmental performance of dwellings in comparison to the SIP household and the department Standards.
118 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
Figure 28: Environmental performance per number of occupants of dwellings in comparison to the SIP household and the department Standards.
Looking at the houses in more detail, Figure 29
elements monitored. There is a 26 per cent difference
presents the contribution for each Catalyst house
between the highest (CatB) and the lowest (CatA)
of gas and electricity consumption, with Figure 30
consumption.
breaking this down further to the various electrical
Figure 29: Contribution of gas and electricity to annual CO2e from Catalyst houses (source: Ian Adams – Organica Engineering).
119 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
Figure 30: Contribution of gas and individual elements of electricity (including negative solar contribution) to annual CO2e from Catalyst houses (source: Ian Adams – Organica Engineering).
When the actual performance of the Catalyst
per cent), general power (one per cent) and total
houses is compared to the predicted performance
electricity (25 per cent) were all lower. The high usage
by Organica Engineering (see Figure 31), overall
of gas indicates that the Catalyst households were
the Catalyst houses performed only five per cent
using more gas to heat their dwellings during winter
higher than predicted. In looking at the individual
than predicted. This in part was driven by at least
consumption elements, the usage of gas was
one colder than average winter during the research
significantly higher than predicted (317 per cent),
period, and likely that the households were setting
usage of electricity for lights was higher (15 per
their temperatures higher than estimated in initial
cent), and the generation of solar was higher than
predictions.
predicted (176 per cent). The usage for oven (64
120 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
Figure 31: Organica Engineering’s initial environmental performance predictions of Catalyst house performance (across all four) compared with actual performance (source: Ian Adams – Organica Engineering).
Looking at the Control houses in more detail, Figure
monitored. There is significant difference (285 per
32 presents the contribution of each house for gas
cent) between the lowest (ConE) and the highest
and electricity to annual CO2e, with Figure 33 break-
(ConD) Control houses, which is driven by a large
ing this down further to the various electrical elements
difference in general power environmental impact.
Figure 32: Contribution of gas and electricity to annual CO2e from Control houses (source: Ian Adams – Organica Engineering and RMIT University).
121 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
Figure 33: Contribution of gas and individual elements of electricity to annual CO2e from Catalyst houses (source: Ian Adams – Organica Engineering and RMIT University).
Figure 34 presents the above environmental impact
of 551 cars worth of greenhouse gas emissions
data in terms of equivalent number of cars across
compared to a department Standards house,
different timeframes. Across an assumed 40-year
and 387 cars worth of greenhouse gas emissions
lifespan of a Catalyst dwelling, it saves an average
compared to the average across the Control houses.
Figure 34: Car equivalent of environmental performance.
122 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
123 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
7. Summary of research findings This section presents a summary of the research
perception of neighbourhood safety and
analysis from Sections 3 to 6 and draws implications
relationships with the department regional office.
for the department, tenants and the wider stakeholders involved in the project.
However, there were some indicators that had not changed in comparison to their previous dwelling,
7.1. Household interviews
including:
Overall, Catalyst households reported or were
•
engagement with environmental sustainability
observed:
as households already believed they were low
•
consumers of utilities
expressing satisfaction with their dwellings and taking pride in the appearance of their dwelling
•
(except with some issues with one of the
engagement in gardening and composting activities.
households)
Control households reported limited and less
•
having lower utility consumption
consistent improvements across the above evaluation
•
having significantly lower utility costs due to the
indicators compared to their previous dwellings.
sustainability features (for example, water tank
In comparison to Catalyst households, Control
plumbed into house and solar panels)
households were found to:
being able to pay their utility bills more easily with
•
• •
reduced stress
(including two who had been put on prepayment
having additional money available for discretionary
plans)
items and experiences such as going on a holiday •
•
report lower satisfaction with thermal comfort and demonstrate an over-reliance on mechanical
demonstrating an improvement to their thermal
cooling to stay cool in summer (which in turn
comfort and health during extreme weather events
impacted on electricity usage and costs), including
compared to their previous dwelling, translating to
one household who had to vacate their house
fewer trips to the doctor or hospital
during prolonged periods of heat
being able to adequately adapt during extreme
•
have significant neighbourhood issues and safety
heat without the use of an air conditioner (although
concerns in one cluster of three households living
one household had an air conditioner installed for
on the same street •
experience ad hoc changes to improved life
events
circumstances unrelated to their dwelling (but
demonstrating an overall improvement in life
related to the provision of secure tenure)
circumstances, life satisfaction and wellbeing, including one household removing themselves from all CentreLink payments •
•
or buying clothes
health reasons) and staying at home during such •
have more issues paying their utility bills on time
having improved neighbourhood satisfaction,
124 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
•
experience lower satisfaction with their relationship with the department regional office.
7.2. Stakeholder interviews
Standards for utility consumption, environmental
The tradespeople who were interviewed were happy
performance and thermal comfort. However, financial
to have been involved in the project and believed
payback through a traditional CBA was problematic
the project worked well overall. However, they also
within 40 years. Specifically:
reported no increase of ESD work because of their
•
On a per dwelling, basis the Catalyst households
involvement in the project. There were three key
purchased 73 per cent less electricity compared
reasons raised as to why this was the case: 1) there
to the SIP household, 62 per cent less electricity
was no location promotion of the project; 2) changes
compared to the department Standards, and 45
to Federal and State Government policies, rebates and
per cent less electricity compared to the Control
feed-in tariffs meant that the incentive for sustainability
households.
technologies cially solar) were reduced; and 3) they
•
On a per dwelling basis, the Catalyst households
needed to build a portfolio of sustainability work
consumed 239 per cent more gas compared
before additional work would be forthcoming. The
to the SIP household, three per cent less gas
tradespeople did acknowledge, however, significant
compared to the department Standards, and
benefits for the department and tenants as a result of
15 per cent less gas compared to the Control
the project.
households. •
Overall the Catalyst houses used five per cent
While all stakeholders were satisfied with the project
more energy than the SIP household, 12 per
overall, there were some key lessons with regards to
cent less energy than the department Standards,
design, material and technology choices that could
and seven per cent less energy than the Control
improve future developments. Significant delays at the
households.
start of the project between design and construction
•
On a per dwelling basis, the Catalyst households
caused issues in terms of efficiency of work and
purchased 30 per cent less mains water compared
resulted in some outdated material and technology
to the SIP house, 28 per cent less mains water
choices being made in this rapidly changing area.
compared to the department Standards, and 22
There was also a high number of variances made to
per cent less mains water compared to the Control
the design and construction after the contract had
households.
been signed, which added time and costs to the
•
On a per household basis, the Catalyst houses had 63 per cent less environmental impact from their
project.
energy operation compared to the SIP house, 50 Despite working on a market-leading innovative
per cent less impact compared to the department
sustainability development, only one of the
Standards, and 40 per cent less impact compared
tradespeople interviewed had used this experience to
to the Control houses.
make changes to their own practices.
•
When looking at the adaptive thermal comfort criteria, the Catalyst houses were comfortable 10
7.3. Housing performance and costbenefit analysis
per cent more of the time in the living areas and
Overall the Catalyst houses performed significantly
bedrooms compared to the Control houses.
better than the Control houses and the department
125 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
comfortable seven per cent more of the time in the •
The difference is more pronounced during
•
•
•
•
•
extreme weather events. For example, on the
they did things in their dwelling as a direct result of the
second consecutive day of temperatures above
home advisory tour. These changes were reported as
41oC, the difference between the hottest Control
switching from washing clothes in warm water to cold
house (which had air conditioning) and the
water in one house, and turning the heater off properly
coolest Catalyst house was 16.6oC (without air
when not home in another. Many of the households
conditioning).
indicated that they did not think the savings were worth
In terms of the blower door test, the Catalyst
the effort or did not want to change what they had
houses performed better than the Control houses,
always done (for example, leaving the computer on all
indicating quality design and construction.
the time).
The additional capital cost for the improved sustainability elements was about twice that found
7.5. Implications
in recent Australian and international research.
Catalyst houses and households performed
Only two of the Catalyst households will achieve
significantly better across a range of indicators
a payback within 40 years at a high energy price
and metrics compared to the Control houses and
future (and none at a low energy price future) using
households and against the department Standards and
the traditional CBA approach.
SIP households. In this regard the Catalyst houses are
This outcome improves if elements such as
both Australian and international leading examples of
improved tenant health and wellbeing and
sustainable housing best practice, particularly at the
improved resale value are included.
time of their design when there were very few nine-star-
When analysing the individual sustainability
plus housing examples in Australia. With a nine-star
elements, the most cost-effective option was the
performance rating, the houses are comparable to the
inclusion of solar panels, followed by the rainwater
German Passive House standard, which is regarded
tank plumbed into the house. The building
as one of the most stringent sustainable housing
envelope improvement was the least cost-effective
standards in the world. Since construction, there have
element.
been some other nine- and now 10-star developments (for example, Josh Bryne’s 10-star house in Western
7.4. Home advisory tours
Australia), but these remain the exception in the
Home advisory tours were conducted with a
building industry, with the majority of new construction
sustainability expert, who was also a member of the
being built in the six to seven-star range. Additionally,
research team, to inform them about ways to further
there are few other examples of such low carbon,
reduce the households’ utility bills and environmental
energy and sustainable housing developed by housing
impact (see Section 3). These tours were well received
agencies, either in Australia or internationally.
by the households that participated. However, there was a limited number of suggestions that could
The Catalyst houses are performing well in terms of
be made due to a range of challenges, including
both overall utility consumption and utilities bought
financial and health considerations, and because most
from the grid in comparison to the Control houses,
households were already frugal in their use of utilities.
the department Standards and SIP house. This has
The third round of interviews found that only two
a number of implications if replicated more broadly
households had made a significant change to the way
across the department or general public housing
126 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
stock. Firstly, it reduces the requirement to use fossil
Furthermore, there is a challenge regarding how
fuel energy, which could negate the need for new
much active engagement to reasonably expect from
generation plants to meet the demand of an increasing
tenants in order to maximise ESD outcomes. For
population, and secondly, it could help generate a
example, the inclusion of solar PV does not require
business case to close down old fossil fuel energy
the tenant to do anything to receive the benefit;
plants that are no longer required to provide energy.
whereas the requirement to reverse the ceiling fan
Thirdly, the wider adoption of Catalyst housing could
direction and open the celestial windows to vent
also reduce peak electricity demand on extreme
warm air requires tenant involvement. The analysis
heat days, which would assist in stabilising electricity
found that some Catalyst tenants were more willing
pricing across the electricity network. In addition, a
or able, to undertake the actions required to operate
reduction in potable water use would help future-
their dwellings as designed, while others were unable
proof communities against predicted ongoing drought
or decided not, to follow ESD processes. This can
conditions.
impact on the overall benefits to the tenants, the department and the environment, and prompts the
The Catalyst households achieved a 50 per cent
question about how much of the design should be
performance improvement of greenhouse gas (GHG)
passive and not rely on tenants to direct outcomes and
emissions compared to the department Standards
performance. Importantly, there is no simple division
dwelling. Such improvement has major implications
between ‘design’ and ‘behaviour’ that can be drawn
if replicated across the department housing stock of
here. Tenants engaged with their dwellings in a range
85,200 dwellings. While it is more difficult to improve
of ways (predictable and unpredictable) that both
the environmental performance of existing dwellings,
supported and undermined sustainability objectives.
the research provides evidence to support a new benchmark for new department housing, and provides
Understanding how to keep the department tenants
a pathway for upgrades to existing housing stock.
engaged with sustainability and making efficient use
For example, the department could set a 25 per cent
of their dwellings will help to maximise the benefits
improvement in energy efficiency for existing dwellings.
outlined above, for the department, tenants and
If this could be achieved, it would also have wider
broader society. It was clear from the interviews with
implications on the operational GHG emissions from
the tenants of both Catalyst and Control households
the Victorian and Australian housing sector. Based
that providing them with written material in the form
upon Australian Bureau of Statistics data [105],
of a guidebook or similar is unlikely to be an effective
department housing stock represents approximately
option. Personalised home advisory tours with a
3.7 per cent of total housing in Victoria. A 25 per cent
sustainability expert were trialled as a way of improving
improvement to energy efficiency and GHG emissions
the performance and use of each dwelling. A number
across department housing stock could therefore
of difficulties were also raised during this process,
have a small, but not insignificant improvement for
including how much change these households
the housing stock in Victoria of 0.9 per cent. The
could realistically achieve. However, there was some
department therefore has the ability to shape wider
evidence of households making small changes.
housing developments in Victoria and Australia due to
Reminders or advice about how to use houses
the department’s unique ownership of a large number
efficiently could be integrated into the inspections
of dwellings.
127 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
conducted by housing agency staff.
some of the clear benefits for health and comfort both across the year and in extreme weather events.
However, the above benefits and outcomes are
Further, an eight-star house would likely require some
offset against the higher initial capital costs of the
form of air conditioning, whereas the Catalyst houses
Catalyst houses. On a traditional CBA approach,
demonstrated that at nine stars, air conditioning can
the Catalyst houses do not achieve payback within
be excluded. A key question is whether the objective
a 40-year assumed lifespan. This does not factor in
is to reduce living costs of tenants as cost efficiently
considerations of broader benefits such improved
as possible or whether it is to improve the health and
household health, especially during extreme weather
wellbeing (including financial wellbeing) of tenants.
events. This has led to a reduction in the number of trips to the doctor and hospital for tenants and, if
The final point concerns the stakeholders and
replicated across the department housing stock, could
tradespeople involved with the project. It was an aim
have significant implications for health and healthcare
of the department to help facilitate innovation with the
costs.
tradespeople involved, but in reality there has been little improvement in terms of practices or increased ESD
In addition, the research found that the extra
work from being involved in the project. While some
capital costs for the sustainability elements of the
of this is due to changes to government policy around
Catalyst houses could be significantly reduced if the
rebates, there was also a missed opportunity to more
development is repeated (about 50 per cent less)
widely promote the project and those involved. As
due to cost efficiencies in the design, materials and
already stated, the department has the opportunity to
technologies. This would significantly address issues
be a leader and shape the future direction of the new
of payback periods and make the project a more
and renovated building industry in Victoria and Australia
financially viable option.
for a transition to a sustainable housing future; not only from an environmental sustainability perspective, but
The research highlights the question of trade-offs and
also in terms of improved tenant outcomes (finance,
overall objectives. For example, if capital cost efficiency
health and wellbeing) and broader social and business
is important, a future development could be built to a
benefits.
slightly lower star rating (for example, eight star) but include more solar panels, thus reducing living costs for tenants even further. However, by reducing the thermal performance of the dwelling, this negates
128 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
8. Recommendations The Catalyst houses resulted in improved outcomes
participate in gardening activities.
for the department, the tenants, society and the environment across a range of metrics. The following
Maintenance
recommendations assume this set of the department
5. Develop a clear schedule of works for sustainability
objectives for new housing:
building elements and technologies, including
•
improved tenant comfort
maintenance and cleaning requirements, to
•
minimised tenant vulnerability to energy and water
ensure these elements can operate with maximum
costs (low operating costs)
efficiency. 6. Consider installing remote monitoring of
•
tenant safety in extreme weather
•
durability and low maintenance of assets
sustainability technologies to promote early
•
low construction costs.
detection of faults and maintenance needs.
With this in mind, the research team makes the
Tenant-department relationship
following recommendations:
7. Engage tenants in home sustainability strategies through strong relationships with regional contacts
Design and construction
and tailored in-person advice, rather than through
1. The department Standards can be improved to
generic call centres or extensive written information
benefit tenants and the environment using low-risk
(which is only likely to assist a limited number of
construction methods and technologies.
literate and engaged tenants). Focus mainly on
2. In the social housing context, best value for money is achieved with an eight-star building envelope
interested tenants. 8. Provide alternative cooling options to air
(rather than nine stars) and reinvesting some of
conditioning for tenants during extreme heat
these capital cost savings into a larger solar panel
events, such as low-cost retrofitting (for
system for each dwelling. This would reduce costs
example, ceiling fans, secure screen windows
for the department while improving economic
and doors, external shading), provision of other
outcomes for tenants. An eight-star house would
accommodation, and cooled community facilities
also reduce peak energy demand during hot spells
(for example, public libraries).
compared to a standard dwelling. 3. The design of both new and retrofitted dwellings
9. Use language for trial projects that is more engaging for tenants and media. For example,
should consider providing smaller spaces for
rather than ‘Catalyst’, name projects to reflect their
tenants to heat and cool during times of extreme
comfort, health and liveability benefits.
weather so they don’t have to heat and cool entire dwellings or large open spaces. 4. Ensure dwelling gardens contain climateappropriate plants to encourage more tenants to
129 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
Evaluation, process improvement and data man agement 10. Repeat holistic evaluations of new and existing
housing developments so that a more detailed understanding of the costs and benefits, including observed and unmeasurable health and wellbeing benefits, are captured and fed into the departments whole-of-life financials and policy development. 11. Develop a larger new build trial based on this evaluation to explore ways to improve capital costs for such projects across a range of department dwelling types. This would also address the limitation of this study, which is the small sample size. 12. It is important that these evaluations are mixed methods, as this evaluation has demonstrated that relying on quantitative or qualitative data alone would not have captured the complete story of how the Catalyst houses were performing.
130 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
9. Appendix 1 – Semi-structured household interview questions (round 1) Experience of last home
14. Do you find this home comfortable in summer?
1. Where did you live before you moved here?
a. Why? What makes it comfortable/uncomfortable?
2. Could you tell me/us a little bit about your last
b. How does this compare to your last house?
home/apartment?
15. What do you do to keep yourself cool in your home during summer?
a. How happy with it were you? 3. What did you like most about your last home?
s. Do you do anything different to stay cool on really hot days?
4. What did you dislike most about your last home?
b. (If they have air conditioning or mention they use air
Experience of current house
conditioning) What temperature do you like to set your
5. Thinking about this current house, what do you
air conditioner to?
remember about moving in? 6. Do you have a particular memory about moving in
c. Does this change on a really hot or cold day?
16. Can you remember a day when the house has been really uncomfortable (too cold or too hot)
here that you would like to share?
over the past year?
7. Now that you have been in this house for a year or so, how do you feel about living here/how have
a. If yes, what did you do on that day?
you settled in?
b. Are there any areas of the house that are particularly hot or cold?
8. What do you like most about it? 9. What do you dislike most about it?
17. Do you or other households have any health concerns that are affected by the heat or cold?
10. How do you find living here compared to your last home?
18. Have there been any changes to your health over the past year?
11. How/why do you think your quality of life has changed since living in this house?
a. If yes, do you think any of these health concerns are linked to your current house?
Thermal comfort
19. Do you feel like there’s enough ventilation/air flow in your house?
12. Do you find this home comfortable in winter?
a. Why? What makes it comfortable/uncomfortable?
b. How does keeping warm in winter in this home
20. (If needed – some may be solo households) Do some households feel the heat or cold more than
compare to your last house?
others?
13. What do you do to keep yourself warm in your
a. Do you do anything to increase/reduce the air flow?
home during winter?
a. Do you do anything different to stay warm on really
21. If you have pets, do you ever heat or cool the
cold days?
a. If yes, what sorts of things do you do to manage this?
house for them? If so, how? 22. Is there anything in your home that needs to be
131 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
kept at a certain temperature? 23. Have you experienced any electricity blackouts
31. Can you tell me how you use the lighting in your
since moving into this house?
house?
a. If yes, have these blackouts ever occurred on really
a. Has this changed compared to the last house?
hot or cold days?
b. If so, how has this changed? Why?
b. If yes, how did you stay cool/warm during these
c. What is it like during the day with the lights off? Do
times? What sorts of things did you do?
Utility consumption 24. Do you keep an eye on your energy and water
you have enough light to do the things you want to do?
32. Can you tell me how you do your laundry in this house?
a. Has this changed compared to the last house?
consumption?
b. If so, how has this changed? Why?
a. Did you do this in your last house?
33. Have you changed anything about how you bathe
25. Have you noticed any changes to your energy or water consumption since moving into this house?
or shower since moving to this house?
a. If yes, how has it changed? Why do you think this has
Sustainability features
happened?
34. Do you do anything/any other things around the
26. Have you noticed any changes in your energy/
b. If so, how has this changed? Why?
home to try and help the environment?
water/gas bills compared to your last house?
a. If no, why not?
a. Do you feel you can control your energy/water/gas
b. If yes, what sort of things do you do?
costs?
c. If yes, have you always done these things or did you
b. Why/why not?
c. Have you had difficulty paying your energy/water/gas
35. Are you interested in gardening?
bills while living in this house?
a. If no, why not?
d. Did you ever have difficulty paying your energy/water/
b. If yes, why?
gas bills while living in your last house?
c. Has this changed since you moved into this house?
d. If interested in gardening, do you grow any of your
27. Do you find you have additional money left over
start them when you moved into this house?
after paying your energy/water/gas bills compared to your last house?
own food or compost food waste?
a. If yes, what do you do with this additional money?
28. Have you had any changes to concessions you
e. Have you noticed a reduction in waste going to landfill?
36. Were you provided with information on how to use
may receive for energy/water/gas costs?
the sustainability technologies/house when you
a.If yes, how?
moved in?
b. What do you think about this?
a. If yes, who provided this information to you?
b. How and when was this information provided?
appliances since you moved into this house?
c. Did you learn anything from this information?
a. If yes, which ones?
d. Is there anything you are still unsure about?
29. Have you purchased or acquired any new
30. Can you tell me about how you use your television
37. Have you had any issues/difficulties with any of
and computer in this house?
these sustainability features/the house that we
a. Has this changed compared to your last house?
haven’t already discussed?
132 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
a. If yes, have you tried to contact anyone about this issue?
Conclusion
House tour 42. Would you mind taking me/us on a short tour of your house to point out some of the sustainability
38. If these houses were to be built again, what would
features/energy and water appliances/technologies
you recommend to change, if anything?
and how you use them?
39. What would you keep the same? 40. Do you have anything else you’d like to share about your home, the sustainability features or the way in which you use it? 41. Do you have any other questions for us?
10. Appendix 2 – Semi-structured stakeholder interview questions (round 1) Interview questions for the department staff
to include? 4. Who is responsible for sourcing and purchasing
House tour 1. Could you start by telling me a little bit about your
products? 5. What is the selection process for builders and trades to install and maintain ESD features?
professional role?
a. What do you do?
b. How long have you done this for?
6. Are builders and trades required to follow ESD guidelines regarding energy/water use and on-site waste?
2. What is the nature of your involvement in the Horsham Catalyst project?
a. How did you become involved in the project?
b. What was/is your specific role within the project?
c. Can you tell me an unexpected outcome or story to
7. If so, how are these guidelines communicated and who is responsible for checking compliance? 8. Who is responsible for communicating with builders/trades and monitoring their work?
have come from the project?
9. Were there any issues with builders/trades?
d. What do you think has worked about the project?
e. What do you think has not worked about the project?
10. Who is responsible for monitoring and maintaining
a. If yes, what did you learn from these issues?
the houses, especially the ESD features?
Processes and governance
3. How are decisions currently made at the
11. Who do tenants contact if they have any questions
a. Is this done on a regular basis?
department regarding whether to include ESD
about their houses in terms of ESD or other
features in new housing developments, and which
features?
133 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
12. What is the typical process for addressing these questions and resolving any issues that might arise?
Stakeholder management 13. Were you or are you involved in managing any contractors for this project?
tenants about the properties?
Conclusion 18. What do you consider are the benefits of the Horsham Catalyst project? a. How would you improve similar projects in the future? 19. Is there anything else you’d like to add or any
14. If yes, have you had any difficulties with this
questions you have for us?
process? a. How did you deal with these difficulties?
b. What was the outcome of this process once the
Interview questions for building contractors and
difficulty had been dealt with?
trades
c. Do you have any recommendations on how this process could be improved for future projects?
Engagement 15. In your role on the Horsham Catalyst project, do/ did you engage directly with the tenants of the Catalyst houses?
Introduction 1. Could you start by telling me a bit about your professional role? a. What do you do?
a.If so, what is/was the purpose and nature of this
ESD, processes and governance
engagement?
2. What is the nature of your/your company’s
b. How did/do you engage with the households?
c. How often would you engage with them (indirectly and
involvement in the Horsham Catalyst project?
face to face)?
b. How long have you done this for?
d. What resources/information did/do you provide to the
project?
households?
e. How was/is this received by the households?
f. In your opinion what engagement strategies worked
best?
a. What was your/your company’s specific role within the
b. How did you/your company become involved in the project?
c. How many local (Horsham area) people were employed by your company to work on this project?
3. Was there a selection process you had to go through to get this work?
f. Which engagement strategies haven’t worked so well?
g. How do you think tenant engagement activities could
be improved?
4. Did you have to meet any criteria or follow any
16. What do you think it would be like to live in one of
a. What did this entail?
guidelines from the department when undertaking
the Catalyst houses?
work on the Catalyst houses?
a. Would you like to live in one?
a. Can you describe these?
b. Why/why not?
b. Did you require any specialist knowledge or skills to
17. Have you spoken with the tenants of these houses
undertake work on the Catalyst houses, for example, in
informally? a. What sort of feedback have you received from the
134 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
ESD features?
c. Where did you acquire this knowledge?
d. Did the work require you to learn new ESD skills
a. How did these turn out?
specifically for this job?
b. Would you do anything differently if you had the
5. Prior to this work, did you or your company
chance?
routinely follow any framework or guidelines for
sustainable work practices, for example, energy
Engagement
and water use, waste etc.?
14. Throughout your involvement with the department
a. If yes, how were/are these implemented and
Catalyst development, did/do you/your company
assessed?
engage directly with the tenants of the Catalyst
6. Were you/your company involved in the decisionmaking process with the department for the
houses?
selection and purchase of suitable ESD products
engagement?
for the houses?
b. How did/do you engage with the households?
a. If so, what did this entail?
c. How often would you engage with them (indirectly and
7. Are you/your company involved in the ongoing maintenance and repair of ESD and other features
face to face)?
of the houses?
a. If so, how is this coordinated?
8. Has your/your company’s involvement in the any way, for example, promotion, training, skills,
e. How was/is this received by the households?
f. In your opinion what engagement strategies worked best?
business practices? a. If so, please describe how?
d. What resources/information did/do you provide to the households?
Catalyst project changed the way you operate in
a. If so, what is/was the purpose and nature of this
g. Which engagement strategies haven’t worked so well?
9. Has there been any flow-on ESD work following
h. How do you think tenant engagement activities could be improved?
your involvement with this project? 10. Were there any issues working with the department?
a. Did you do anything to resolve these issues?
b. If so, what did you do and what was the outcome?
Conclusion 15. Can you tell me a good news story or unexpected outcome to have come from the project? 16. What do you consider are the benefits of the Horsham Catalyst project?
Work
a. To the households?
11. Where did you source your materials from?
b. To the department?
c. To companies like yourself?
a. Was there an increase of local materials?
12. Can you tell me if there was a reduction in con-
17. Are there any things that you would have done
struction waste from your work on this project?
a. If so by how much (% wise)?
b. Did you use local recycling facilities?
13. Can you tell me about any innovative building practices or materials used in this project?
135 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
differently?
a. What are any key lessons you would give for similar projects in the future?
18. Is there anything else you’d like to add or any questions you have for us?
11. Appendix 3 – Advisor guide for home tour Recommendation notes (assessor use)
Topic
Energy source(s): Solar PV: Water tank:
Electricity only Yes Yes
Electricity & Gas No No
Electricity use Gas use Water use Concessions eligibility Kitchen • Cooking • Washing up • Use/thermostat/type/maintenance of fridge(s) and freezer(s) • Other activities, for example, making coffee or hot drinks • Tap flow rates/drips* Living room – staying cool and warm* • Use of heaters • Use of fans (including reversibility) and/or cooling • Gaps/draughts including any chimneys • Use of windows and window coverings/shading • Use of doors (including for pets) Catalyst: • Use of celestial windows • Use of entry air lock • Check data logger Living room – entertainment/study/work* • TVs • ICTs • Standby power Living room – lighting* • Use • Type of globes
136 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
Laundry • Washing clothes • Drying clothes Catalyst: • Use of laundry windows • Water tank gauge
Bathroom • Toilet (flush volume and use) • Showering/bathing practices • Shower flow rate • Use of bathroom heating/heat lamps • Use of fan
Bedrooms • As per above as relevant Catalyst only: • Bedroom 1: Check data logger
Other activities using energy • For example, power tools
Outdoors • Hot water system • Water/water tank • Garden • Compost • Recycling Catalyst only: • Maximising financial benefit from solar PV if on a feed-in tariff
* Topics to be considered/discussed throughout walk-through as relevant to house features.
137 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
De-identified example of home tour recommendations sheet
138 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
12. Bibliography 1. Bergman, M., Advances in mixed methods research: Theories and applications. 2008, London: SAGE Publications Ltd. 2. Thomson, R. and Holland, J., Hindsight, foresight and insight: The challenges of longitudinal qualitative research. International Journal of Social Research Methodology, 2003. 6(3): p. 233-244. 3. Neale, B. and Flowerdew, J., Time, texture and childhood: The contours of longitudinal qualitative research. International Journal of Social Research Methodology, 2003. 6(3): p. 189-199. 4. Creswell, J., Research design: Qualitative, quantitative, and mixed methods approaches. 3rd ed. 2009, London: Sage Publications, Inc. 5. Yin, R.K., Qualitative Research from Start to Finish. 2010, Guilford Publications: New York. 6. Ridley, I., Bere, J., Clarke, A., Schwartz, Y., and Farr, A., The side by side in use monitored performance of two passive and low carbon Welsh houses. Energy and Buildings, 2014. 82(0): p. 13-26. 7. DEWHA, Energy use in the Australian residential sector 1986-2020. 2008, Department of the Environment, Water, Heritage and the Arts: Canberra. 8. Moore, T., Facilitating a transition to zero emission new housing in Australia: Costs, benefits and direction for policy, in School of Global, Urban and Social Studies. 2012, RMIT University: Melbourne. 9. ABCB, Final regulation impact statement for decision (Final RIS 2009-06). Proposal to Revise the Energy Efficiency Requirements of the Building Code of Australia for Residential Buildings — Classes 1, 2, 4 and 10. December 2009. 2009, Australian Building Codes Board: Canberra. 10. IEA, World energy outlook 2007. 2007, Paris: International Energy Agency. 11. IEA, World Energy Outlook 2010. 2010, Paris: International Energy Agency. 12. Lazou, A. and Papatsoris, A., The economics of photovoltaic stand-alone residential households: A case study for various Euopean and Mediterranean locations. Solar Energy materials and Solar Cells, 2000. 62: p. 411427. 13. Marsden Jacob Associates, The cost-effectiveness of rainwater tanks in urban Australia 2007, National Water Commission: Canberra. 14. RBA, G1 Measures of consumer price infaltion. 2011, Reserve Bank of Australia. 15. Gollier, C. and Weitzman, M., How should the distant future be discounted when discount rates are uncertain? Economics Letters, 2010. 107(3): p. 350-353. 16. Le Dars, A. and Loaec, C., Economic comparison of long-term nuclear fuel cycle management scenarios: The influence of the discount rate. Energy Policy, 2007. 35(5): p. 2995-3002. 17. Australian Government, Best practice regulation handbook., ed. Office of Best Practice. 2007, Canberra:
139 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
Commonwealth of Australia. 18. Garnaut, R., The Garnaut Climate Change Review. 2008, Melbourne: Cambridge University Press. 19. Stern, N., The economics of climate change: the Stern review. 2007, Cambridge: Cambridge University Press. 20. HM Treasury, The Green Book: Appraisal and Evaluation in Central Government. 2003, London: Stationery Office Books, British Government. 21. Hatfield-Dodds, S. and Denniss, R., Energy Affordability, Living Standards and Emissions Trading: Assessing the social impacts of achieving deep cuts in Australian greenhouse emissions. 2008, Report to The Climate Institute Canberra, CSIRO Sustainable Ecosystems.: Canberra. 22. Essential Services Commission, Price review 2013: Greater metroplitan water business. Draft Decision – Executive Summary. 2013, Essential Services Commission: Melbourne. 23. DEWHA, Energy efficiency rating and house price in the ACT. 2008, Department of the Environment Water Heritage and the Arts: Canberra. 24. Nevin, R. and Watson, G., Evidence of rational market valuations for home energy efficiency. Appraisal Journal, 1998. 66: p. 401-409. 25. Hearps, P. and McConnell, D., Renewable Energy Technology Cost Review. 2011, Melbourne Energy Institute: Melbourne. 26. Jackson, S., Liu, X., and Cecchini, M., Economic consequences of firms’ depreciation method choice: Evidence from capital investments. Journal of Accounting and Economics, 2009. 48(1): p. 54-68. 27. IPCC, Fourth Assessment Report. Climate Change 2007: Synthesis Report Summary for Policy Makers UNEP. 2007, Intergovernmental Panel on Climate Change: Valencia, Spain. 28. Kellett, J., More than a Roof Over Our Head: Can Planning Safeguard Rooftop Resources? Urban Policy and Research, 2011. 29(1): p. 23-36. 29. Smith, A., Translating Sustainabilities between Green Niches and Socio-Technical Regimes. Technology Analysis & Strategic Management, 2007. 19(4): p. 427 - 450. 30. Berry, S., Whaley, D., Davidson, K., and Saman, W., Near zero energy homes – What do users think? Energy Policy, 2014. 73(0): p. 127-137. 31. Guerra Santin, O., Occupant behaviour in energy efficient dwellings: evidence of a rebound effect. Journal of Housing and the Built Environment, 2013. 28(2): p. 311-327. 32. Pilkington, B., Roach, R., and Perkins, J., Relative benefits of technology and occupant behaviour in moving towards a more energy efficient, sustainable housing paradigm. Energy Policy, 2011. 39(9): p. 4962-4970. 33. Clune, S., Morrissey, J., and Moore, T., Size Matters: House size and thermal efficiency as policy strategies to reduce net emissions of new developments. Energy Policy, 2012. 48: p. 657-667. 34. Morrissey, J., Moore, T., and Horne, R., Affordable passive solar design in a temperate climate: An experiment in residential building orientation. Renewable Energy, 2011. 36(2): p. 568-577. 35. Horne, R. and Hayles, C., Towards global benchmarking for sustainable homes: an international comparison of the energy performance of housing. Journal of Housing and the Built Environment, 2008. 23(2): p. 119-130.
140 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
36. Lowe, R. and Oreszczyn, T., Regulatory standards and barriers to improved performance for housing. Energy Policy, 2008. 36(12): p. 4475-4481. 37. DCLG, Code for Sustainable Homes. Technical guide. 2010, Department for Communities and Local Government: London. 38. Moore, T., Modelling the through-life costs and benefits of detached zero (net) energy housing in Melbourne, Australia. Energy and Buildings, 2014. 70(0): p. 463-471. 39. Berry, S., Whaley, D., Davidson, K., and Saman, W., Do the numbers stack up? Lessons from a zero carbon housing estate. Renewable Energy, 2014. 67(0): p. 80-89. 40. Shove, E., Walker, G., and Brown, S., Transnational Transitions: The Diffusion and Integration of Mechanical Cooling. Urban Studies, 2013. 41. Farbotko, C. and Waitt, G., Residential air-conditioning and climate change: voices of the vulnerable. Health Promotion Journal of Australia, 2011. 22 Spec No: p. S13-6. 42. Winter, T., An uncomfortable truth: air-conditioning and sustainability in Asia. Environment and Planning A, 2013. 45(3): p. 517-531. 43. Chapman, R., Howden-Chapman, P., Viggers, H., O’Dea, D., and Kennedy, M., Retrofitting houses with insulation: a cost-benefit analysis of a randomised community trial. Journal of epidemiology and community health, 2009. 63(4): p. 271-7. 44. Nicholls, L. and Strengers, Y., Air-conditioning and antibiotics: Demand management insights from problematic health and household cooling practices. Energy Policy, 2014. 67: p. 673-681. 45. Strengers, Y., Comfort expectations: the impact of demand-management strategies in Australia. Building Research & Information, 2008. 36(4): p. 381-391. 46. de Dear, R. and White, S. Residential air conditioning, thermal comfort and peak electricity demand management. in Air Conditioning and the Low Carbon Cooling Challenge. 27-29 July. 2008. Cumberland Lodge, Windsor, UK: London: Network for Comfort and Energy Use in Buildings. 47. Chester, L., The impacts and consequences for low-income Australian households of rising energy prices. . 2013, University of Sydney: Sydney. 48. Zhu, L., Hurt, R., Correa, D., and Boehm, R., Comprehensive energy and economic analyses on a zero energy house versus a conventional house. Energy, 2009. 34(9): p. 1043-1053. 49. Passive House Institute. About Passive House - What is a Passive House? 2014 01/07/2014]; Available from: http://passiv.de/en/02_informations/01_whatisapassivehouse/01_whatisapassivehouse.htm. 50. Bergman, N., Whitmarsh, L., Köhler, J., Haxeltine, A., and Schilperoord, M., Assessing transitions to sustainable housing and communities in the UK., in International conference on whole life urban sustainability and its assessment, 27th - 29th June 2007. 2007: Glasgow, Scotland. 51. Crabtree, L. and Hes, D., Sustainability uptake on housing in metropolitan Australia: An institutional problem, not a technological one. Housing Studies, 2009. 24(2): p. 203-224. 52. CABE, The value of urban design. 2001, Commission for Architecture and the Built Environment: London.
141 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
53. CABE, The value of good design. How buildings and spaces create economic and social value. 2002, Commission for Architecture and the Built Environment: London. 54. CABE, The Value of Public Space. How high quality parks and public spaces create economic, social and environmental value. 2003, Commission for Architecture and the Built Environment: London. 55. CABE, Creating Successful Neighbourhoods - Lessons and actions for Housing Market Renewal. 2005, Commission for Architecture and the Built Environment: London. 56. CABE, Buildings and spaces: why design matters. 2006, Commission for Architecture and the Built Environment: London. 57. CABE, Paved with gold. The real value of good street design. 2007, Commission for Architecture and the Built Environment: London. 58. CABE, Improving the design of new housing. What role for standards? 2010, Commission for Architecture and the Built Environment: London. 59. Lawson, B., Design and the Evidence. Procedia - Social and Behavioral Sciences, 2013. 105(0): p. 30-37. 60. Macmillan, S., Added value of good design. Building Research & Information, 2006. 34(3): p. 257-271. 61. Yudelson, J. and Meyer, U., The world’s greenest buildings. Promise versus performance in sustainable design. 2013, Abingdon: Routledge. 62. CSIRO. Zero Emission House. 2010 22/12/2010]; Available from: http://www.csiro.au/science/AustralianZero-Emission-House.html. 63. Kolokotsa, D., Rovas, D., Kosmatopoulos, E., and Kalaitzakis, K., A roadmap towards intelligent net zero- and positive-energy buildings. Solar Energy, 2011. 85(12): p. 3067-3084. 64. Osmani, M. and O’Reilly, A., Feasibility of zero carbon homes in England by 2016: A house builder’s perspective. Building and Environment, 2009. 44(9): p. 1917-1924. 65. Szatow, A., Cape Paterson Ecovillage: Zero carbon study peer review. 2011, Prepared for The Cape Paterson Partnership and Sustainability Victoria: Melbourne. 66. Zabaneh, G., Zero net house: Preliminary assessment of suitability for Alberta. Renewable and Sustainable Energy Reviews, 2011. 15(6): p. 3237-3242. 67. Chapman, R., Howden-Chapman, P., Viggers, H., O’Dea, D., and Kennedy, M., Retrofitting houses with insulation: a cost-benefit analysis of a randomised community trial. J Epidemiol Community Health, 2009. 63(4): p. 271-7. 68. Ridley, I., Clarke, A., Bere, J., Altamirano, H., Lewis, S., Durdev, M., and Farr, A., The monitored performance of the first new London dwelling certified to the Passive House standard. Energy and Buildings, 2013. 63(0): p. 67-78. 69. Huang C, Barnett AG, Xu Z, Chu C, Wang X, Turner LR, and S., T., Managing the Health Effects of Temperature in Response to Climate Change: Challenges Ahead. Environ Health Perspect 2013. 121: p. 415–419 70. de Dear, R., Thermal comfort in practice. Indoor Air, 2004. 14: p. 32-39.
142 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
71. City of Melbourne, Future living. A discussion paper identifying issues and options for housing our community. 2013, City of Melbourne: Melbourne. 72. City of Melbourne, Understanding the Quality of Housing Design. 2013, City of Melbourne: Melbourne. 73. City of Melbourne, Homes for People. Draft Housing Strateg 2014-2018. 2014, City of Melbourne: Melbourne. 74. Carmona, M. and Wunderlich, F.M., Capital spaces. The multiple complex public spaces of a global city. 2012, Oxon: Routledge. 75. Higgins, D. and Moore, T., What gives to keep that price point? High-density residential developments. Pacific Rim Property Research Journal, 2015. 21(1): p. 37-49. 76. Choguill, C., The search for policies to support sustainable housing. Habitat International, 2007. 31(1): p. 143149. 77. Peabody, BedZED. 2009, Peabody. 78. Zero Carbon Hub. Building profiles. 2014 28/11/2014]; Available from: http://www.zerocarbonhub.org/ building-profiles. 79. Boulder County. Josephine Commons Development. 2014 28/11/2014]; Available from: http://www. bouldercounty.org/family/housing/pages/josephine.aspx. 80. Asia Business Council Building Energy Efficiency. Why Green Buildings Are Key to Asia’s Future. 2007, Asia Business Council Hong Kong. 81. de Dear, R. and Brager, G., The adaptive model of thermal comfort and energy conservation in the built environment. International Journal of Biometeorology, 2001. 45(2): p. 100-108. 82. Indraganti, M., Thermal comfort in naturally ventilated apartments in summer: Findings from a field study in Hyderabad, India. Applied Energy, 2010. 87(3): p. 866-883. 83. Strengers, Y. and Maller, C., Integrating health, housing and energy policies: social practices of cooling. Building Research & Information, 2011. 39(2): p. 154-168. 84. de Dear, R. and Brager, G., Developing an adaptive model of thermal comfort and preference. 1998, Center for the Built Environment. UC Berkeley: Berkeley. 85. Nicol, J.F. and Humphreys, M.A., Adaptive thermal comfort and sustainable thermal standards for buildings. Energy and Buildings, 2002. 34(6): p. 563-572. 86. Gill, Z.M., Tierney, M.J., Pegg, I.M., and Allan, N., Low-energy dwellings: the contribution of behaviours to actual performance. Building Research & Information, 2010. 38(5): p. 491-508. 87. DCLG, Code for Sustainable Homes: A step-change in sustainable home building practice. 2006, Department for Communities and Local Government: London. 88. DCLG, Cost of building to the Code for Sustainable Homes. Updated cost review. 2011, Department for Communities and Local Government: London. 89. Vale, B. and Vale, R., The new autonomous house: design and planning for sustainability. 2000, London: Thames & Hudson. 90. Walker, I., Al-Beaini, S., Borgeson, S., Coffey, B., Gregory, D., Konis, K., Scown, C., Simjanovic, J., Stanley,
143 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
J., and Strogen, B., Feasibility of Achieving Net-Zero-Energy Net-Zero-Cost Homes. 2009, Ernest Orlando Lawrence Berkeley National Laboratory: Berkeley, California. 91. Boardman, A., Greenberg, D., Vining, A., and Weimer, D., Cost-benefit analysis. Concepts and Practice. Fourth edition. 2011, New Jersey: Pearsons Education. 92. Pearce, D. and Barbier, E., Blueprint for a sustainable economy. 2000, London: Earthscan. 93. Boardman, B., Darby, S., Killip, G., Hinnells, M., Jardine, N., Palmer, J., and Sinden, G., 40% house. 2005, Oxford: Environmental Change Institute, University of Oxford. 94. DCLG, Cost analysis of the Code for Sustainable Homes. Final report. 2008, Department for Communities and Local Government: London. 95. Golubchikov, O. and Deda, P., Governance, technology, and equity: An integrated policy framework for energy efficient housing. Energy Policy, 2012. 41: p. 733-741. 96. Williamson, T., Grant, E., Hansen, A., Pisaniello, D., and Adamon, M., An investigation of potential health benefits from increasing energy efficiency stringency requirements. Building Code of Australia Volumnes one and two. 2009, The University of Adelaide: Adelaide. 97. London, A.S., Schwartz, S., and Scott, E.K., Combining Quantitative and Qualitative Data in Welfare Policy Evaluations in the United States. World Development, 2007. 35(2): p. 342-353. 98. Östlund, U., Kidd, L., Wengström, Y., and Rowa-Dewar, N., Combining qualitative and quantitative research within mixed method research designs: A methodological review. International Journal of Nursing Studies, 2011. 48(3): p. 369-383. 99. Kanbur, R. and Shaffer, P., Epistemology, Normative Theory and Poverty Analysis: Implications for Q-Squared in Practice. World Development, 2007. 35(2): p. 183-196. 100.
van den Bergh, J.C.J.M., Optimal climate policy is a utopia: from quantitative to qualitative cost-benefit
analysis. Ecological Economics, 2004. 48(4): p. 385-393. 101.
Kim, M.J., Oh, M.W., and Kim, J.T., A method for evaluating the performance of green buildings with a
focus on user experience. Energy and Buildings, 2013. 66(0): p. 203-210. 102.
Moore, T., Martel, A., and Horne, R., Final report: Value of Design project. 2014, Centre for Urban
Research, RMIT University: Melbourne. 103.
Newton, P. and Tucker, S., Hybrid Buildings: Pathways for greenhouse gas mitigation in the housing
sector. 2009, Institute for Social Research, Swinburne University of Technology: Melbourne. 104.
Moore, T. and Morrissey, J., Lifecycle costing sensitivities for zero energy housing in Melbourne, Australia.
Energy and Buildings, 2014. 79: p. 1-11. 105.
ABS, 2011 Census QuickStats. Victoria. 2013, Australian Bureau of Statistics: Canberra.
144 | Centre for Urban Research | Horsham Catalyst Research and Evaluation
Centre for Urban Research, 2016
www.cur.org.au twitter.com/rmit_cur facebook.com/rmit_cur
145 | Centre for Urban Research | Horsham Catalyst Research and Evaluation